We introduced SQL option `spark.sql.parquet.followParquetFormatSpec` while working on implementing Parquet backwards-compatibility rules in SPARK-6777. It indicates whether we should use legacy Parquet format adopted by Spark 1.4 and prior versions or the standard format defined in parquet-format spec to write Parquet files.
This option defaults to `false` and is marked as a non-public option (`isPublic = false`) because we haven't finished refactored Parquet write path. The problem is, the name of this option is somewhat confusing, because it's not super intuitive why we shouldn't follow the spec. Would be nice to rename it to `spark.sql.parquet.writeLegacyFormat`, and invert its default value (the two option names have opposite meanings).
Although this option is private in 1.5, we'll make it public in 1.6 after refactoring Parquet write path. So that users can decide whether to write Parquet files in standard format or legacy format.
Author: Cheng Lian <lian@databricks.com>
Closes#8566 from liancheng/spark-10400/deprecate-follow-parquet-format-spec.
Floor & Ceiling function should returns Long type, rather than Double.
Verified with MySQL & Hive.
Author: Cheng Hao <hao.cheng@intel.com>
Closes#8933 from chenghao-intel/ceiling.
This is an implementation of Hive's `json_tuple` function using Jackson Streaming.
Author: Nathan Howell <nhowell@godaddy.com>
Closes#7946 from NathanHowell/SPARK-9617.
When reading Parquet string and binary-backed decimal values, Parquet `Binary.getBytes` always returns a copied byte array, which is unnecessary. Since the underlying implementation of `Binary` values there is guaranteed to be `ByteArraySliceBackedBinary`, and Parquet itself never reuses underlying byte arrays, we can use `Binary.toByteBuffer.array()` to steal the underlying byte arrays without copying them.
This brings performance benefits when scanning Parquet string and binary-backed decimal columns. Note that, this trick doesn't cover binary-backed decimals with precision greater than 18.
My micro-benchmark result is that, this brings a ~15% performance boost for scanning TPC-DS `store_sales` table (scale factor 15).
Another minor optimization done in this PR is that, now we directly construct a Java `BigDecimal` in `Decimal.toJavaBigDecimal` without constructing a Scala `BigDecimal` first. This brings another ~5% performance gain.
Author: Cheng Lian <lian@databricks.com>
Closes#8907 from liancheng/spark-10811/eliminate-array-copying.
The UTF8String may come from UnsafeRow, then underline buffer of it is not copied, so we should clone it in order to hold it in Stats.
cc yhuai
Author: Davies Liu <davies@databricks.com>
Closes#8929 from davies/pushdown_string.
https://issues.apache.org/jira/browse/SPARK-10741
I choose the second approach: do not change output exprIds when convert MetastoreRelation to LogicalRelation
Author: Wenchen Fan <cloud0fan@163.com>
Closes#8889 from cloud-fan/hot-bug.
This makes two changes:
- Allow reduce tasks to fetch multiple map output partitions -- this is a pretty small change to HashShuffleFetcher
- Move shuffle locality computation out of DAGScheduler and into ShuffledRDD / MapOutputTracker; this was needed because the code in DAGScheduler wouldn't work for RDDs that fetch multiple map output partitions from each reduce task
I also added an AdaptiveSchedulingSuite that creates RDDs depending on multiple map output partitions.
Author: Matei Zaharia <matei@databricks.com>
Closes#8844 from mateiz/spark-9852.
JIRA: https://issues.apache.org/jira/browse/SPARK-10705
As described in the JIRA ticket, `DataFrame.toJSON` uses `DataFrame.mapPartitions`, which converts internal rows to external rows. We should use `queryExecution.toRdd.mapPartitions` that directly uses internal rows for better performance.
Author: Liang-Chi Hsieh <viirya@appier.com>
Closes#8865 from viirya/df-tojson-internalrow.
This patch reverts most of the changes in a previous fix#8827.
The real cause of the issue is that in `TungstenAggregate`'s prepare method we only reserve 1 page, but later when we switch to sort-based aggregation we try to acquire 1 page AND a pointer array. The longer-term fix should be to reserve also the pointer array, but for now ***we will simply not track the pointer array***. (Note that elsewhere we already don't track the pointer array, e.g. [here](a18208047f/sql/core/src/main/java/org/apache/spark/sql/execution/UnsafeKVExternalSorter.java (L88)))
Note: This patch reuses the unit test added in #8827 so it doesn't show up in the diff.
Author: Andrew Or <andrew@databricks.com>
Closes#8888 from andrewor14/dont-track-pointer-array.
Python DataFrame.head/take now requires scanning all the partitions. This pull request changes them to delegate the actual implementation to Scala DataFrame (by calling DataFrame.take).
This is more of a hack for fixing this issue in 1.5.1. A more proper fix is to change executeCollect and executeTake to return InternalRow rather than Row, and thus eliminate the extra round-trip conversion.
Author: Reynold Xin <rxin@databricks.com>
Closes#8876 from rxin/SPARK-10731.
This patch attempts to fix an issue where Spark SQL's UnsafeRowSerializer was incompatible with the `tungsten-sort` ShuffleManager.
Author: Josh Rosen <joshrosen@databricks.com>
Closes#8873 from JoshRosen/SPARK-10403.
This patch refactors Python UDF handling:
1. Extract the per-partition Python UDF calling logic from PythonRDD into a PythonRunner. PythonRunner itself expects iterator as input/output, and thus has no dependency on RDD. This way, we can use PythonRunner directly in a mapPartitions call, or in the future in an environment without RDDs.
2. Use PythonRunner in Spark SQL's BatchPythonEvaluation.
3. Updated BatchPythonEvaluation to only use its input once, rather than twice. This should fix Python UDF performance regression in Spark 1.5.
There are a number of small cleanups I wanted to do when I looked at the code, but I kept most of those out so the diff looks small.
This basically implements the approach in https://github.com/apache/spark/pull/8833, but with some code moving around so the correctness doesn't depend on the inner workings of Spark serialization and task execution.
Author: Reynold Xin <rxin@databricks.com>
Closes#8835 from rxin/python-iter-refactor.
JIRA: https://issues.apache.org/jira/browse/SPARK-10446
Currently the method `join(right: DataFrame, usingColumns: Seq[String])` only supports inner join. It is more convenient to have it support other join types.
Author: Liang-Chi Hsieh <viirya@appier.com>
Closes#8600 from viirya/usingcolumns_df.
Reading from Microsoft SQL Server over jdbc fails when the table contains datetimeoffset types.
This patch registers a SQLServer JDBC Dialect that maps datetimeoffset to a String, as Microsoft suggest.
Author: Ewan Leith <ewan.leith@realitymine.com>
Closes#8575 from realitymine-coordinator/sqlserver.
It would be nice to support creating a DataFrame directly from a Java List of Row.
Author: Holden Karau <holden@pigscanfly.ca>
Closes#8779 from holdenk/SPARK-10630-create-DataFrame-from-Java-List.
It does not make much sense to set `spark.shuffle.spill` or `spark.sql.planner.externalSort` to false: I believe that these configurations were initially added as "escape hatches" to guard against bugs in the external operators, but these operators are now mature and well-tested. In addition, these configurations are not handled in a consistent way anymore: SQL's Tungsten codepath ignores these configurations and will continue to use spilling operators. Similarly, Spark Core's `tungsten-sort` shuffle manager does not respect `spark.shuffle.spill=false`.
This pull request removes these configurations, adds warnings at the appropriate places, and deletes a large amount of code which was only used in code paths that did not support spilling.
Author: Josh Rosen <joshrosen@databricks.com>
Closes#8831 from JoshRosen/remove-ability-to-disable-spilling.
Since `scala.util.parsing.combinator.Parsers` is thread-safe since Scala 2.10 (See [SI-4929](https://issues.scala-lang.org/browse/SI-4929)), we can change SqlParser to object to avoid memory leak.
I didn't change other subclasses of `scala.util.parsing.combinator.Parsers` because there is only one instance in one SQLContext, which should not be an issue.
Author: zsxwing <zsxwing@gmail.com>
Closes#8357 from zsxwing/sql-memory-leak.
When `TungstenAggregation` hits memory pressure, it switches from hash-based to sort-based aggregation in-place. However, in the process we try to allocate the pointer array for writing to the new `UnsafeExternalSorter` *before* actually freeing the memory from the hash map. This lead to the following exception:
```
java.io.IOException: Could not acquire 65536 bytes of memory
at org.apache.spark.util.collection.unsafe.sort.UnsafeExternalSorter.initializeForWriting(UnsafeExternalSorter.java:169)
at org.apache.spark.util.collection.unsafe.sort.UnsafeExternalSorter.spill(UnsafeExternalSorter.java:220)
at org.apache.spark.sql.execution.UnsafeKVExternalSorter.<init>(UnsafeKVExternalSorter.java:126)
at org.apache.spark.sql.execution.UnsafeFixedWidthAggregationMap.destructAndCreateExternalSorter(UnsafeFixedWidthAggregationMap.java:257)
at org.apache.spark.sql.execution.aggregate.TungstenAggregationIterator.switchToSortBasedAggregation(TungstenAggregationIterator.scala:435)
```
Author: Andrew Or <andrew@databricks.com>
Closes#8827 from andrewor14/allocate-pointer-array.
Intersect and Except are both set operators and they use the all the columns to compare equality between rows. When pushing their Project parent down, the relations they based on would change, therefore not an equivalent transformation.
JIRA: https://issues.apache.org/jira/browse/SPARK-10539
I added some comments based on the fix of https://github.com/apache/spark/pull/8742.
Author: Yijie Shen <henry.yijieshen@gmail.com>
Author: Yin Huai <yhuai@databricks.com>
Closes#8823 from yhuai/fix_set_optimization.
Many of the fields in InMemoryColumnar scan and InMemoryRelation can be made transient.
This reduces my 1000ms job to abt 700 ms . The task size reduces from 2.8 mb to ~1300kb
Author: Yash Datta <Yash.Datta@guavus.com>
Closes#8604 from saucam/serde.
JIRA: https://issues.apache.org/jira/browse/SPARK-10459
As mentioned in the JIRA, `PythonUDF` actually could process `UnsafeRow`.
Specially, the rows in `childResults` in `BatchPythonEvaluation` will be projected to a `MutableRow`. So I think we can enable `canProcessUnsafeRows` for `BatchPythonEvaluation` and get rid of redundant `ConvertToSafe`.
Author: Liang-Chi Hsieh <viirya@appier.com>
Closes#8616 from viirya/pyudf-unsafe.
1. Support collecting data of MapType from DataFrame.
2. Support data of MapType in createDataFrame.
Author: Sun Rui <rui.sun@intel.com>
Closes#8711 from sun-rui/SPARK-10050.
Current implementation uses query with a LIMIT clause to find if table already exists. This syntax works only in some database systems. This patch changes the default query to the one that is likely to work on most databases, and adds a new method to the JdbcDialect abstract class to allow dialects to override the default query.
I looked at using the JDBC meta data calls, it turns out there is no common way to find the current schema, catalog..etc. There is a new method Connection.getSchema() , but that is available only starting jdk1.7 , and existing jdbc drivers may not have implemented it. Other option was to use jdbc escape syntax clause for LIMIT, not sure on how well this supported in all the databases also. After looking at all the jdbc metadata options my conclusion was most common way is to use the simple select query with 'where 1 =0' , and allow dialects to customize as needed
Author: sureshthalamati <suresh.thalamati@gmail.com>
Closes#8676 from sureshthalamati/table_exists_spark-9078.
Instead of relying on `DataFrames` to verify our answers, we can just use simple arrays. This significantly simplifies the test logic for `LocalNode`s and reduces a lot of code duplicated from `SparkPlanTest`.
This also fixes an additional issue [SPARK-10624](https://issues.apache.org/jira/browse/SPARK-10624) where the output of `TakeOrderedAndProjectNode` is not actually ordered.
Author: Andrew Or <andrew@databricks.com>
Closes#8764 from andrewor14/sql-local-tests-cleanup.
When speculative execution is enabled, consider a scenario where the authorized committer of a particular output partition fails during the OutputCommitter.commitTask() call. In this case, the OutputCommitCoordinator is supposed to release that committer's exclusive lock on committing once that task fails. However, due to a unit mismatch (we used task attempt number in one place and task attempt id in another) the lock will not be released, causing Spark to go into an infinite retry loop.
This bug was masked by the fact that the OutputCommitCoordinator does not have enough end-to-end tests (the current tests use many mocks). Other factors contributing to this bug are the fact that we have many similarly-named identifiers that have different semantics but the same data types (e.g. attemptNumber and taskAttemptId, with inconsistent variable naming which makes them difficult to distinguish).
This patch adds a regression test and fixes this bug by always using task attempt numbers throughout this code.
Author: Josh Rosen <joshrosen@databricks.com>
Closes#8544 from JoshRosen/SPARK-10381.
The idea is that we should separate the function call that does memory reservation (i.e. prepare) from the function call that consumes the input (e.g. open()), so all operators can be a chance to reserve memory before they are all consumed.
Author: Reynold Xin <rxin@databricks.com>
Closes#8761 from rxin/SPARK-10612.
*Note: this is for master branch only.* The fix for branch-1.5 is at #8721.
The query execution ID is currently passed from a thread to its children, which is not the intended behavior. This led to `IllegalArgumentException: spark.sql.execution.id is already set` when running queries in parallel, e.g.:
```
(1 to 100).par.foreach { _ =>
sc.parallelize(1 to 5).map { i => (i, i) }.toDF("a", "b").count()
}
```
The cause is `SparkContext`'s local properties are inherited by default. This patch adds a way to exclude keys we don't want to be inherited, and makes SQL go through that code path.
Author: Andrew Or <andrew@databricks.com>
Closes#8710 from andrewor14/concurrent-sql-executions.
JIRA: https://issues.apache.org/jira/browse/SPARK-10437
If an expression in `SortOrder` is a resolved one, such as `count(1)`, the corresponding rule in `Analyzer` to make it work in order by will not be applied.
Author: Liang-Chi Hsieh <viirya@appier.com>
Closes#8599 from viirya/orderby-agg.
This PR is in conflict with #8535 and #8573. Will update this one when they are merged.
Author: zsxwing <zsxwing@gmail.com>
Closes#8642 from zsxwing/expand-nest-join.
Alternative to PR #6122; in this case the refactored out classes are replaced by inner classes with the same name for backwards binary compatibility
* process in a lighter-weight, backwards-compatible way
Author: Edoardo Vacchi <uncommonnonsense@gmail.com>
Closes#6356 from evacchi/sqlctx-refactoring-lite.
This is a followup to #8499 which adds a Scalastyle rule to mandate the use of SparkHadoopUtil's JobContext accessor methods and fixes the existing violations.
Author: Josh Rosen <joshrosen@databricks.com>
Closes#8521 from JoshRosen/SPARK-10330-part2.
Adding STDDEV support for DataFrame using 1-pass online /parallel algorithm to compute variance. Please review the code change.
Author: JihongMa <linlin200605@gmail.com>
Author: Jihong MA <linlin200605@gmail.com>
Author: Jihong MA <jihongma@jihongs-mbp.usca.ibm.com>
Author: Jihong MA <jihongma@Jihongs-MacBook-Pro.local>
Closes#6297 from JihongMA/SPARK-SQL.
Fix a few Java API test style issues: unused generic types, exceptions, wrong assert argument order
Author: Sean Owen <sowen@cloudera.com>
Closes#8706 from srowen/SPARK-10547.
1. Hide `LocalNodeIterator` behind the `LocalNode#asIterator` method
2. Add tests for this
Author: Andrew Or <andrew@databricks.com>
Closes#8708 from andrewor14/local-hash-join-follow-up.
This PR is in conflict with #8535. I will update this one when #8535 gets merged.
Author: zsxwing <zsxwing@gmail.com>
Closes#8573 from zsxwing/more-local-operators.
Before this fix, `MyDenseVectorUDT.typeName` gives `mydensevecto`, which is not desirable.
Author: Cheng Lian <lian@databricks.com>
Closes#8640 from liancheng/spark-10472/udt-type-name.
`LeftOutputIterator` and `RightOutputIterator` are symmetrically identical and can share a lot of code. If someone makes a change in one but forgets to do the same thing in the other we'll end up with inconsistent behavior. This patch also adds inline comments to clarify the intention of the code.
Author: Andrew Or <andrew@databricks.com>
Closes#8596 from andrewor14/smoj-cleanup.
this PR :
1. Enhance reflection in RBackend. Automatically matching a Java array to Scala Seq when finding methods. Util functions like seq(), listToSeq() in R side can be removed, as they will conflict with the Serde logic that transferrs a Scala seq to R side.
2. Enhance the SerDe to support transferring a Scala seq to R side. Data of ArrayType in DataFrame
after collection is observed to be of Scala Seq type.
3. Support ArrayType in createDataFrame().
Author: Sun Rui <rui.sun@intel.com>
Closes#8458 from sun-rui/SPARK-10049.
This PR includes the following changes:
- Add SQLConf to LocalNode
- Add HashJoinNode
- Add ConvertToUnsafeNode and ConvertToSafeNode.scala to test unsafe hash join.
Author: zsxwing <zsxwing@gmail.com>
Closes#8535 from zsxwing/SPARK-9990.
Data Spill with UnsafeRow causes assert failure.
```
java.lang.AssertionError: assertion failed
at scala.Predef$.assert(Predef.scala:165)
at org.apache.spark.sql.execution.UnsafeRowSerializerInstance$$anon$2.writeKey(UnsafeRowSerializer.scala:75)
at org.apache.spark.storage.DiskBlockObjectWriter.write(DiskBlockObjectWriter.scala:180)
at org.apache.spark.util.collection.ExternalSorter$$anonfun$writePartitionedFile$2$$anonfun$apply$1.apply(ExternalSorter.scala:688)
at org.apache.spark.util.collection.ExternalSorter$$anonfun$writePartitionedFile$2$$anonfun$apply$1.apply(ExternalSorter.scala:687)
at scala.collection.Iterator$class.foreach(Iterator.scala:727)
at scala.collection.AbstractIterator.foreach(Iterator.scala:1157)
at org.apache.spark.util.collection.ExternalSorter$$anonfun$writePartitionedFile$2.apply(ExternalSorter.scala:687)
at org.apache.spark.util.collection.ExternalSorter$$anonfun$writePartitionedFile$2.apply(ExternalSorter.scala:683)
at scala.collection.Iterator$class.foreach(Iterator.scala:727)
at scala.collection.AbstractIterator.foreach(Iterator.scala:1157)
at org.apache.spark.util.collection.ExternalSorter.writePartitionedFile(ExternalSorter.scala:683)
at org.apache.spark.shuffle.sort.SortShuffleWriter.write(SortShuffleWriter.scala:80)
at org.apache.spark.scheduler.ShuffleMapTask.runTask(ShuffleMapTask.scala:73)
at org.apache.spark.scheduler.ShuffleMapTask.runTask(ShuffleMapTask.scala:41)
at org.apache.spark.scheduler.Task.run(Task.scala:88)
at org.apache.spark.executor.Executor$TaskRunner.run(Executor.scala:214)
```
To reproduce that with code (thanks andrewor14):
```scala
bin/spark-shell --master local
--conf spark.shuffle.memoryFraction=0.005
--conf spark.shuffle.sort.bypassMergeThreshold=0
sc.parallelize(1 to 2 * 1000 * 1000, 10)
.map { i => (i, i) }.toDF("a", "b").groupBy("b").avg().count()
```
Author: Cheng Hao <hao.cheng@intel.com>
Closes#8635 from chenghao-intel/unsafe_spill.
This PR is based on #8383 , thanks to viirya
JIRA: https://issues.apache.org/jira/browse/SPARK-9730
This patch adds the Full Outer Join support for SortMergeJoin. A new class SortMergeFullJoinScanner is added to scan rows from left and right iterators. FullOuterIterator is simply a wrapper of type RowIterator to consume joined rows from SortMergeFullJoinScanner.
Closes#8383
Author: Liang-Chi Hsieh <viirya@appier.com>
Author: Davies Liu <davies@databricks.com>
Closes#8579 from davies/smj_fullouter.
The bulk of the changes are on `transient` annotation on class parameter. Often the compiler doesn't generate a field for this parameters, so the the transient annotation would be unnecessary.
But if the class parameter are used in methods, then fields are created. So it is safer to keep the annotations.
The remainder are some potential bugs, and deprecated syntax.
Author: Luc Bourlier <luc.bourlier@typesafe.com>
Closes#8433 from skyluc/issue/sbt-2.11.
We did a lot of special handling for non-deterministic expressions in `Optimizer`. However, `PhysicalOperation` just collects all Projects and Filters and mess it up. We should respect the operators order caused by non-deterministic expressions in `PhysicalOperation`.
Author: Wenchen Fan <cloud0fan@outlook.com>
Closes#8486 from cloud-fan/fix.
To keep full compatibility of Parquet write path with Spark 1.4, we should rename the innermost field name of arrays that may contain null from "array_element" to "array".
Please refer to [SPARK-10434] [1] for more details.
[1]: https://issues.apache.org/jira/browse/SPARK-10434
Author: Cheng Lian <lian@databricks.com>
Closes#8586 from liancheng/spark-10434/fix-parquet-array-type.
Jenkins master builders are currently broken by a merge conflict between PR #8584 and PR #8155.
Author: Cheng Lian <lian@databricks.com>
Closes#8614 from liancheng/hotfix/fix-pr-8155-8584-conflict.
This PR takes over https://github.com/apache/spark/pull/8389.
This PR improves `checkAnswer` to print the partially analyzed plan in addition to the user friendly error message, in order to aid debugging failing tests.
In doing so, I ran into a conflict with the various ways that we bring a SQLContext into the tests. Depending on the trait we refer to the current context as `sqlContext`, `_sqlContext`, `ctx` or `hiveContext` with access modifiers `public`, `protected` and `private` depending on the defining class.
I propose we refactor as follows:
1. All tests should only refer to a `protected sqlContext` when testing general features, and `protected hiveContext` when it is a method that only exists on a `HiveContext`.
2. All tests should only import `testImplicits._` (i.e., don't import `TestHive.implicits._`)
Author: Wenchen Fan <cloud0fan@outlook.com>
Closes#8584 from cloud-fan/cleanupTests.
For example, we can write `SELECT MAX(value) FROM src GROUP BY key + 1 ORDER BY key + 1` in PostgreSQL, and we should support this in Spark SQL.
Author: Wenchen Fan <cloud0fan@outlook.com>
Closes#8548 from cloud-fan/support-order-by-non-attribute.
Before #8371, there was a bug for `Sort` on `Aggregate` that we can't use aggregate expressions named `_aggOrdering` and can't use more than one ordering expressions which contains aggregate functions. The reason of this bug is that: The aggregate expression in `SortOrder` never get resolved, we alias it with `_aggOrdering` and call `toAttribute` which gives us an `UnresolvedAttribute`. So actually we are referencing aggregate expression by name, not by exprId like we thought. And if there is already an aggregate expression named `_aggOrdering` or there are more than one ordering expressions having aggregate functions, we will have conflict names and can't search by name.
However, after #8371 got merged, the `SortOrder`s are guaranteed to be resolved and we are always referencing aggregate expression by exprId. The Bug doesn't exist anymore and this PR add regression tests for it.
Author: Wenchen Fan <cloud0fan@outlook.com>
Closes#8231 from cloud-fan/sort-agg.
This PR can be quite challenging to review. I'm trying to give a detailed description of the problem as well as its solution here.
When reading Parquet files, we need to specify a potentially nested Parquet schema (of type `MessageType`) as requested schema for column pruning. This Parquet schema is translated from a Catalyst schema (of type `StructType`), which is generated by the query planner and represents all requested columns. However, this translation can be fairly complicated because of several reasons:
1. Requested schema must conform to the real schema of the physical file to be read.
This means we have to tailor the actual file schema of every individual physical Parquet file to be read according to the given Catalyst schema. Fortunately we are already doing this in Spark 1.5 by pushing request schema conversion to executor side in PR #7231.
1. Support for schema merging.
A single Parquet dataset may consist of multiple physical Parquet files come with different but compatible schemas. This means we may request for a column path that doesn't exist in a physical Parquet file. All requested column paths can be nested. For example, for a Parquet file schema
```
message root {
required group f0 {
required group f00 {
required int32 f000;
required binary f001 (UTF8);
}
}
}
```
we may request for column paths defined in the following schema:
```
message root {
required group f0 {
required group f00 {
required binary f001 (UTF8);
required float f002;
}
}
optional double f1;
}
```
Notice that we pruned column path `f0.f00.f000`, but added `f0.f00.f002` and `f1`.
The good news is that Parquet handles non-existing column paths properly and always returns null for them.
1. The map from `StructType` to `MessageType` is a one-to-many map.
This is the most unfortunate part.
Due to historical reasons (dark histories!), schemas of Parquet files generated by different libraries have different "flavors". For example, to handle a schema with a single non-nullable column, whose type is an array of non-nullable integers, parquet-protobuf generates the following Parquet schema:
```
message m0 {
repeated int32 f;
}
```
while parquet-avro generates another version:
```
message m1 {
required group f (LIST) {
repeated int32 array;
}
}
```
and parquet-thrift spills this:
```
message m1 {
required group f (LIST) {
repeated int32 f_tuple;
}
}
```
All of them can be mapped to the following _unique_ Catalyst schema:
```
StructType(
StructField(
"f",
ArrayType(IntegerType, containsNull = false),
nullable = false))
```
This greatly complicates Parquet requested schema construction, since the path of a given column varies in different cases. To read the array elements from files with the above schemas, we must use `f` for `m0`, `f.array` for `m1`, and `f.f_tuple` for `m2`.
In earlier Spark versions, we didn't try to fix this issue properly. Spark 1.4 and prior versions simply translate the Catalyst schema in a way more or less compatible with parquet-hive and parquet-avro, but is broken in many other cases. Earlier revisions of Spark 1.5 only try to tailor the Parquet file schema at the first level, and ignore nested ones. This caused [SPARK-10301] [spark-10301] as well as [SPARK-10005] [spark-10005]. In PR #8228, I tried to avoid the hard part of the problem and made a minimum change in `CatalystRowConverter` to fix SPARK-10005. However, when taking SPARK-10301 into consideration, keeping hacking `CatalystRowConverter` doesn't seem to be a good idea. So this PR is an attempt to fix the problem in a proper way.
For a given physical Parquet file with schema `ps` and a compatible Catalyst requested schema `cs`, we use the following algorithm to tailor `ps` to get the result Parquet requested schema `ps'`:
For a leaf column path `c` in `cs`:
- if `c` exists in `cs` and a corresponding Parquet column path `c'` can be found in `ps`, `c'` should be included in `ps'`;
- otherwise, we convert `c` to a Parquet column path `c"` using `CatalystSchemaConverter`, and include `c"` in `ps'`;
- no other column paths should exist in `ps'`.
Then comes the most tedious part:
> Given `cs`, `ps`, and `c`, how to locate `c'` in `ps`?
Unfortunately, there's no quick answer, and we have to enumerate all possible structures defined in parquet-format spec. They are:
1. the standard structure of nested types, and
1. cases defined in all backwards-compatibility rules for `LIST` and `MAP`.
The core part of this PR is `CatalystReadSupport.clipParquetType()`, which tailors a given Parquet file schema according to a requested schema in its Catalyst form. Backwards-compatibility rules of `LIST` and `MAP` are covered in `clipParquetListType()` and `clipParquetMapType()` respectively. The column path selection algorithm is implemented in `clipParquetGroupFields()`.
With this PR, we no longer need to do schema tailoring in `CatalystReadSupport` and `CatalystRowConverter`. Another benefit is that, now we can also read Parquet datasets consist of files with different physical Parquet schema but share the same logical schema, for example, files generated by different Parquet libraries. This situation is illustrated by [this test case] [test-case].
[spark-10301]: https://issues.apache.org/jira/browse/SPARK-10301
[spark-10005]: https://issues.apache.org/jira/browse/SPARK-10005
[test-case]: 38644d8a45 (diff-a9b98e28ce3ae30641829dffd1173be2R26)
Author: Cheng Lian <lian@databricks.com>
Closes#8509 from liancheng/spark-10301/fix-parquet-requested-schema.
Data frame write to DB2 database is failing because by default JDBC data source implementation is generating a table schema with DB2 unsupported data types TEXT for String, and BIT1(1) for Boolean.
This patch registers DB2 JDBC Dialect that maps String, Boolean to valid DB2 data types.
Author: sureshthalamati <suresh.thalamati@gmail.com>
Closes#8393 from sureshthalamati/db2_dialect_spark-10170.
This PR includes the following changes:
- Add `LocalNodeTest` for local operator tests and add unit tests for FilterNode and ProjectNode.
- Add `LimitNode` and `UnionNode` and their unit tests to show how to use `LocalNodeTest`. (SPARK-9991, SPARK-9993)
Author: zsxwing <zsxwing@gmail.com>
Closes#8464 from zsxwing/local-execution.
This fixes the problem that scanning partitioned table causes driver have a high memory pressure and takes down the cluster. Also, with this fix, we will be able to correctly show the query plan of a query consuming partitioned tables.
https://issues.apache.org/jira/browse/SPARK-10339https://issues.apache.org/jira/browse/SPARK-10334
Finally, this PR squeeze in a "quick fix" for SPARK-10301. It is not a real fix, but it just throw a better error message to let user know what to do.
Author: Yin Huai <yhuai@databricks.com>
Closes#8515 from yhuai/partitionedTableScan.
SparkHadoopUtil contains methods that use reflection to work around TaskAttemptContext binary incompatibilities between Hadoop 1.x and 2.x. We should use these methods in more places.
Author: Josh Rosen <joshrosen@databricks.com>
Closes#8499 from JoshRosen/use-hadoop-reflection-in-more-places.
Actually using this API requires access to a lot of classes that we might make private by accident. I've added some tests to prevent this.
Author: Michael Armbrust <michael@databricks.com>
Closes#8516 from marmbrus/extraStrategiesTests.
This PR introduces a direct write API for testing Parquet. It's a DSL flavored version of the [`writeDirect` method] [1] comes with parquet-avro testing code. With this API, it's much easier to construct arbitrary Parquet structures. It's especially useful when adding regression tests for various compatibility corner cases.
Sample usage of this API can be found in the new test case added in `ParquetThriftCompatibilitySuite`.
[1]: https://github.com/apache/parquet-mr/blob/apache-parquet-1.8.1/parquet-avro/src/test/java/org/apache/parquet/avro/TestArrayCompatibility.java#L945-L972
Author: Cheng Lian <lian@databricks.com>
Closes#8454 from liancheng/spark-10289/parquet-testing-direct-write-api.
After this PR, In/InSet/ArrayContain will return null if value is null, instead of false. They also will return null even if there is a null in the set/array.
Author: Davies Liu <davies@databricks.com>
Closes#8492 from davies/fix_in.
This commit fixes an issue where the public SQL `Row` class did not override `hashCode`, causing it to violate the hashCode() + equals() contract. To fix this, I simply ported the `hashCode` implementation from the 1.4.x version of `Row`.
Author: Josh Rosen <joshrosen@databricks.com>
Closes#8500 from JoshRosen/SPARK-10325 and squashes the following commits:
51ffea1 [Josh Rosen] Override hashCode() for public Row.
Having sizeInBytes in HadoopFsRelation to enable broadcast join.
cc marmbrus
Author: Davies Liu <davies@databricks.com>
Closes#8490 from davies/sizeInByte.
https://issues.apache.org/jira/browse/SPARK-10287
After porting json to HadoopFsRelation, it seems hard to keep the behavior of picking up new files automatically for JSON. This PR removes this behavior, so JSON is consistent with others (ORC and Parquet).
Author: Yin Huai <yhuai@databricks.com>
Closes#8469 from yhuai/jsonRefresh.
In BigDecimal or java.math.BigDecimal, the precision could be smaller than scale, for example, BigDecimal("0.001") has precision = 1 and scale = 3. But DecimalType require that the precision should be larger than scale, so we should use the maximum of precision and scale when inferring the schema from decimal literal.
Author: Davies Liu <davies@databricks.com>
Closes#8428 from davies/smaller_decimal.
This PR:
1. supports transferring arbitrary nested array from JVM to R side in SerDe;
2. based on 1, collect() implemenation is improved. Now it can support collecting data of complex types
from a DataFrame.
Author: Sun Rui <rui.sun@intel.com>
Closes#8276 from sun-rui/SPARK-10048.
Replace `JavaConversions` implicits with `JavaConverters`
Most occurrences I've seen so far are necessary conversions; a few have been avoidable. None are in critical code as far as I see, yet.
Author: Sean Owen <sowen@cloudera.com>
Closes#8033 from srowen/SPARK-9613.
Spark SQL's data sources API exposes Catalyst's internal types through its Filter interfaces. This is a problem because types like UTF8String are not stable developer APIs and should not be exposed to third-parties.
This issue caused incompatibilities when upgrading our `spark-redshift` library to work against Spark 1.5.0. To avoid these issues in the future we should only expose public types through these Filter objects. This patch accomplishes this by using CatalystTypeConverters to add the appropriate conversions.
Author: Josh Rosen <joshrosen@databricks.com>
Closes#8403 from JoshRosen/datasources-internal-vs-external-types.
PR #8341 is a valid fix for SPARK-10136, but it didn't catch the real root cause. The real problem can be rather tricky to explain, and requires audiences to be pretty familiar with parquet-format spec, especially details of `LIST` backwards-compatibility rules. Let me have a try to give an explanation here.
The structure of the problematic Parquet schema generated by parquet-avro is something like this:
```
message m {
<repetition> group f (LIST) { // Level 1
repeated group array (LIST) { // Level 2
repeated <primitive-type> array; // Level 3
}
}
}
```
(The schema generated by parquet-thrift is structurally similar, just replace the `array` at level 2 with `f_tuple`, and the other one at level 3 with `f_tuple_tuple`.)
This structure consists of two nested legacy 2-level `LIST`-like structures:
1. The repeated group type at level 2 is the element type of the outer array defined at level 1
This group should map to an `CatalystArrayConverter.ElementConverter` when building converters.
2. The repeated primitive type at level 3 is the element type of the inner array defined at level 2
This group should also map to an `CatalystArrayConverter.ElementConverter`.
The root cause of SPARK-10136 is that, the group at level 2 isn't properly recognized as the element type of level 1. Thus, according to parquet-format spec, the repeated primitive at level 3 is left as a so called "unannotated repeated primitive type", and is recognized as a required list of required primitive type, thus a `RepeatedPrimitiveConverter` instead of a `CatalystArrayConverter.ElementConverter` is created for it.
According to parquet-format spec, unannotated repeated type shouldn't appear in a `LIST`- or `MAP`-annotated group. PR #8341 fixed this issue by allowing such unannotated repeated type appear in `LIST`-annotated groups, which is a non-standard, hacky, but valid fix. (I didn't realize this when authoring #8341 though.)
As for the reason why level 2 isn't recognized as a list element type, it's because of the following `LIST` backwards-compatibility rule defined in the parquet-format spec:
> If the repeated field is a group with one field and is named either `array` or uses the `LIST`-annotated group's name with `_tuple` appended then the repeated type is the element type and elements are required.
(The `array` part is for parquet-avro compatibility, while the `_tuple` part is for parquet-thrift.)
This rule is implemented in [`CatalystSchemaConverter.isElementType`] [1], but neglected in [`CatalystRowConverter.isElementType`] [2]. This PR delivers a more robust fix by adding this rule in the latter method.
Note that parquet-avro 1.7.0 also suffers from this issue. Details can be found at [PARQUET-364] [3].
[1]: 85f9a61357/sql/core/src/main/scala/org/apache/spark/sql/execution/datasources/parquet/CatalystSchemaConverter.scala (L259-L305)
[2]: 85f9a61357/sql/core/src/main/scala/org/apache/spark/sql/execution/datasources/parquet/CatalystRowConverter.scala (L456-L463)
[3]: https://issues.apache.org/jira/browse/PARQUET-364
Author: Cheng Lian <lian@databricks.com>
Closes#8361 from liancheng/spark-10136/proper-version.
* Makes `SQLImplicits.rddToDataFrameHolder` scaladoc consistent with `SQLContext.createDataFrame[A <: Product](rdd: RDD[A])` since the former is essentially a wrapper for the latter
* Clarifies `createDataFrame[A <: Product]` scaladoc to apply for any `RDD[Product]`, not just case classes
Author: Feynman Liang <fliang@databricks.com>
Closes#8406 from feynmanliang/sql-doc-fixes.
This PR contains examples on how to use some of the Stat Functions available for DataFrames under `df.stat`.
rxin
Author: Burak Yavuz <brkyvz@gmail.com>
Closes#8378 from brkyvz/update-sql-docs.
https://issues.apache.org/jira/browse/SPARK-10143
With this PR, we will set min split size to parquet's block size (row group size) set in the conf if the min split size is smaller. So, we can avoid have too many tasks and even useless tasks for reading parquet data.
I tested it locally. The table I have has 343MB and it is in my local FS. Because I did not set any min/max split size, the default split size was 32MB and the map stage had 11 tasks. But there were only three tasks that actually read data. With my PR, there were only three tasks in the map stage. Here is the difference.
Without this PR:
![image](https://cloud.githubusercontent.com/assets/2072857/9399179/8587dba6-4765-11e5-9189-7ebba52a2b6d.png)
With this PR:
![image](https://cloud.githubusercontent.com/assets/2072857/9399185/a4735d74-4765-11e5-8848-1f1e361a6b4b.png)
Even if the block size setting does match the actual block size of parquet file, I think it is still generally good to use parquet's block size setting if min split size is smaller than this block size.
Tested it on a cluster using
```
val count = sqlContext.table("""store_sales""").groupBy().count().queryExecution.executedPlan(3).execute().count
```
Basically, it reads 0 column of table `store_sales`. My table has 1824 parquet files with size from 80MB to 280MB (1 to 3 row group sizes). Without this patch, in a 16 worker cluster, the job had 5023 tasks and spent 102s. With this patch, the job had 2893 tasks and spent 64s. It is still not as good as using one mapper per file (1824 tasks and 42s), but it is much better than our master.
Author: Yin Huai <yhuai@databricks.com>
Closes#8346 from yhuai/parquetMinSplit.
Type coercion for IF should have children resolved first, or we could meet unresolved exception.
Author: Daoyuan Wang <daoyuan.wang@intel.com>
Closes#8331 from adrian-wang/spark10130.
This class is identical to `org.apache.spark.sql.execution.datasources.jdbc. DefaultSource` and is not needed.
Author: Wenchen Fan <cloud0fan@outlook.com>
Closes#8334 from cloud-fan/minor.
I caught SPARK-10136 while adding more test cases to `ParquetAvroCompatibilitySuite`. Actual bug fix code lies in `CatalystRowConverter.scala`.
Author: Cheng Lian <lian@databricks.com>
Closes#8341 from liancheng/spark-10136/parquet-avro-nested-primitive-array.
This improves performance by ~ 20 - 30% in one of my local test and should fix the performance regression from 1.4 to 1.5 on ss_max.
Author: Reynold Xin <rxin@databricks.com>
Closes#8332 from rxin/SPARK-10100.
https://issues.apache.org/jira/browse/SPARK-10092
This pr is a follow-up one for Multi-DB support. It has the following changes:
* `HiveContext.refreshTable` now accepts `dbName.tableName`.
* `HiveContext.analyze` now accepts `dbName.tableName`.
* `CreateTableUsing`, `CreateTableUsingAsSelect`, `CreateTempTableUsing`, `CreateTempTableUsingAsSelect`, `CreateMetastoreDataSource`, and `CreateMetastoreDataSourceAsSelect` all take `TableIdentifier` instead of the string representation of table name.
* When you call `saveAsTable` with a specified database, the data will be saved to the correct location.
* Explicitly do not allow users to create a temporary with a specified database name (users cannot do it before).
* When we save table to metastore, we also check if db name and table name can be accepted by hive (using `MetaStoreUtils.validateName`).
Author: Yin Huai <yhuai@databricks.com>
Closes#8324 from yhuai/saveAsTableDB.
A few minor changes:
1. Improved documentation
2. Rename apply(distinct....) to distinct.
3. Changed MutableAggregationBuffer from a trait to an abstract class.
4. Renamed returnDataType to dataType to be more consistent with other expressions.
And unrelated to UDAFs:
1. Renamed file names in expressions to use suffix "Expressions" to be more consistent.
2. Moved regexp related expressions out to its own file.
3. Renamed StringComparison => StringPredicate.
Author: Reynold Xin <rxin@databricks.com>
Closes#8321 from rxin/SPARK-9242.
As I talked with Lian,
1. I added EquelNullSafe to ParquetFilters
- It uses the same equality comparison filter with EqualTo since the Parquet filter performs actually null-safe equality comparison.
2. Updated the test code (ParquetFilterSuite)
- Convert catalyst.Expression to sources.Filter
- Removed Cast since only Literal is picked up as a proper Filter in DataSourceStrategy
- Added EquelNullSafe comparison
3. Removed deprecated createFilter for catalyst.Expression
Author: hyukjinkwon <gurwls223@gmail.com>
Author: 권혁진 <gurwls223@gmail.com>
Closes#8275 from HyukjinKwon/master.
Speculation hates direct output committer, as there are multiple corner cases that may cause data corruption and/or data loss.
Please see this [PR comment] [1] for more details.
[1]: https://github.com/apache/spark/pull/8191#issuecomment-131598385
Author: Cheng Lian <lian@databricks.com>
Closes#8317 from liancheng/spark-9899/speculation-hates-direct-output-committer.
We should rounding the result of multiply/division of decimal to expected precision/scale, also check overflow.
Author: Davies Liu <davies@databricks.com>
Closes#8287 from davies/decimal_division.
`DictionaryEncoding` uses Scala runtime reflection to avoid boxing costs while building the directory array. However, this code path may hit [SI-6240] [1] and throw exception.
[1]: https://issues.scala-lang.org/browse/SI-6240
Author: Cheng Lian <lian@databricks.com>
Closes#8306 from liancheng/spark-9627/in-memory-cache-scala-reflection.
DataFrame.withColumn in Python should be consistent with the Scala one (replacing the existing column that has the same name).
cc marmbrus
Author: Davies Liu <davies@databricks.com>
Closes#8300 from davies/with_column.