Extended to make the saveAsHadoop file an async operation to leverage th... #42
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… the FutureAction
| * Output the RDD to any Hadoop-supported file system, using a Hadoop `OutputFormat` class | ||
| * supporting the key and value types K and V in this RDD. | ||
| */ | ||
| def saveAsHadoopFileAsync[F <: OutputFormat[K, V]](path: String)( |
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Most of this section is just the change of the return type, with a FutureAction instead of Unit
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This doesn't look to me to be the correct approach. Since all the saveAsHadoopFile functions eventually end up in saveAsHadoopDataset, the essence of the problem is to create a saveAsHadoopDatasetAsync that evaluates to a Future[Unit] instead of Unit. saveAsHadoopDataset is composed of two parts: 1) runJob of writeToFile; and then 2) writer.commitJob(). Instead of all of this extending FutureAction in SimpleFutureWithPostCompleteAction (which, btw, is going to have a very difficult time making it into the Apache distribution with all of this code duplication), it looks to me like you just need a FutureAction that is a for comprehension over two Futures: for {
writeResult <- sparkContext.submitJob( ...writeToFile...)
commitResult <- writer.commitJob()
} yield commitResultThe only real complication that I am seeing is the need to yield a FutureAction instead of a Future. To address that, I think that all you need to do is make the writeToFile part a Future[JobWaiter[_]] and the commitJob part a SimpleFutureAction[Unit] constructed from that JobWaiter and the identity function. That way a cancel() of the result of the for comprehension ends up calling cancel() on the JobWaiter from writeToFile. In other words, the writeToFile part needs to expose the JobWaiter as soon as it is created (and typically before the awaited job actually completes) and the writer.commitJob part then produces a FutureAction whose cancellation cancels the exposed JobWaiter and whose successful completion is the committing of the awaited job results. |
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Yeah, think you are right, the extension to SimpleFutureAction does seems not really needed given that we already have the waiter after submitting job to scheduler, we can re-use the SimpleFutureAction to simplify things. Let me close this and test it out. |
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Re-open with the updates per @markhamstra review comments |
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replaced with this #43 |
markhamstra
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Mar 21, 2017
…boxing/unboxing ## What changes were proposed in this pull request? This PR improve performance of Dataset.map() for primitive types by removing boxing/unbox operations. This is based on [the discussion](apache#16391 (comment)) with cloud-fan. Current Catalyst generates a method call to a `apply()` method of an anonymous function written in Scala. The types of an argument and return value are `java.lang.Object`. As a result, each method call for a primitive value involves a pair of unboxing and boxing for calling this `apply()` method and a pair of boxing and unboxing for returning from this `apply()` method. This PR directly calls a specialized version of a `apply()` method without boxing and unboxing. For example, if types of an arguments ant return value is `int`, this PR generates a method call to `apply$mcII$sp`. This PR supports any combination of `Int`, `Long`, `Float`, and `Double`. The following is a benchmark result using [this program](https://github.com/apache/spark/pull/16391/files) with 4.7x. Here is a Dataset part of this program. Without this PR ``` OpenJDK 64-Bit Server VM 1.8.0_111-8u111-b14-2ubuntu0.16.04.2-b14 on Linux 4.4.0-47-generic Intel(R) Xeon(R) CPU E5-2667 v3 3.20GHz back-to-back map: Best/Avg Time(ms) Rate(M/s) Per Row(ns) Relative ------------------------------------------------------------------------------------------------ RDD 1923 / 1952 52.0 19.2 1.0X DataFrame 526 / 548 190.2 5.3 3.7X Dataset 3094 / 3154 32.3 30.9 0.6X ``` With this PR ``` OpenJDK 64-Bit Server VM 1.8.0_111-8u111-b14-2ubuntu0.16.04.2-b14 on Linux 4.4.0-47-generic Intel(R) Xeon(R) CPU E5-2667 v3 3.20GHz back-to-back map: Best/Avg Time(ms) Rate(M/s) Per Row(ns) Relative ------------------------------------------------------------------------------------------------ RDD 1883 / 1892 53.1 18.8 1.0X DataFrame 502 / 642 199.1 5.0 3.7X Dataset 657 / 784 152.2 6.6 2.9X ``` ```java def backToBackMap(spark: SparkSession, numRows: Long, numChains: Int): Benchmark = { import spark.implicits._ val rdd = spark.sparkContext.range(0, numRows) val ds = spark.range(0, numRows) val func = (l: Long) => l + 1 val benchmark = new Benchmark("back-to-back map", numRows) ... benchmark.addCase("Dataset") { iter => var res = ds.as[Long] var i = 0 while (i < numChains) { res = res.map(func) i += 1 } res.queryExecution.toRdd.foreach(_ => Unit) } benchmark } ``` A motivating example ```java Seq(1, 2, 3).toDS.map(i => i * 7).show ``` Generated code without this PR ```java /* 005 */ final class GeneratedIterator extends org.apache.spark.sql.execution.BufferedRowIterator { /* 006 */ private Object[] references; /* 007 */ private scala.collection.Iterator[] inputs; /* 008 */ private scala.collection.Iterator inputadapter_input; /* 009 */ private UnsafeRow deserializetoobject_result; /* 010 */ private org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder deserializetoobject_holder; /* 011 */ private org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter deserializetoobject_rowWriter; /* 012 */ private int mapelements_argValue; /* 013 */ private UnsafeRow mapelements_result; /* 014 */ private org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder mapelements_holder; /* 015 */ private org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter mapelements_rowWriter; /* 016 */ private UnsafeRow serializefromobject_result; /* 017 */ private org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder serializefromobject_holder; /* 018 */ private org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter serializefromobject_rowWriter; /* 019 */ /* 020 */ public GeneratedIterator(Object[] references) { /* 021 */ this.references = references; /* 022 */ } /* 023 */ /* 024 */ public void init(int index, scala.collection.Iterator[] inputs) { /* 025 */ partitionIndex = index; /* 026 */ this.inputs = inputs; /* 027 */ inputadapter_input = inputs[0]; /* 028 */ deserializetoobject_result = new UnsafeRow(1); /* 029 */ this.deserializetoobject_holder = new org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder(deserializetoobject_result, 0); /* 030 */ this.deserializetoobject_rowWriter = new org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter(deserializetoobject_holder, 1); /* 031 */ /* 032 */ mapelements_result = new UnsafeRow(1); /* 033 */ this.mapelements_holder = new org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder(mapelements_result, 0); /* 034 */ this.mapelements_rowWriter = new org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter(mapelements_holder, 1); /* 035 */ serializefromobject_result = new UnsafeRow(1); /* 036 */ this.serializefromobject_holder = new org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder(serializefromobject_result, 0); /* 037 */ this.serializefromobject_rowWriter = new org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter(serializefromobject_holder, 1); /* 038 */ /* 039 */ } /* 040 */ /* 041 */ protected void processNext() throws java.io.IOException { /* 042 */ while (inputadapter_input.hasNext() && !stopEarly()) { /* 043 */ InternalRow inputadapter_row = (InternalRow) inputadapter_input.next(); /* 044 */ int inputadapter_value = inputadapter_row.getInt(0); /* 045 */ /* 046 */ boolean mapelements_isNull = true; /* 047 */ int mapelements_value = -1; /* 048 */ if (!false) { /* 049 */ mapelements_argValue = inputadapter_value; /* 050 */ /* 051 */ mapelements_isNull = false; /* 052 */ if (!mapelements_isNull) { /* 053 */ Object mapelements_funcResult = null; /* 054 */ mapelements_funcResult = ((scala.Function1) references[0]).apply(mapelements_argValue); /* 055 */ if (mapelements_funcResult == null) { /* 056 */ mapelements_isNull = true; /* 057 */ } else { /* 058 */ mapelements_value = (Integer) mapelements_funcResult; /* 059 */ } /* 060 */ /* 061 */ } /* 062 */ /* 063 */ } /* 064 */ /* 065 */ serializefromobject_rowWriter.zeroOutNullBytes(); /* 066 */ /* 067 */ if (mapelements_isNull) { /* 068 */ serializefromobject_rowWriter.setNullAt(0); /* 069 */ } else { /* 070 */ serializefromobject_rowWriter.write(0, mapelements_value); /* 071 */ } /* 072 */ append(serializefromobject_result); /* 073 */ if (shouldStop()) return; /* 074 */ } /* 075 */ } /* 076 */ } ``` Generated code with this PR (lines 48-56 are changed) ```java /* 005 */ final class GeneratedIterator extends org.apache.spark.sql.execution.BufferedRowIterator { /* 006 */ private Object[] references; /* 007 */ private scala.collection.Iterator[] inputs; /* 008 */ private scala.collection.Iterator inputadapter_input; /* 009 */ private UnsafeRow deserializetoobject_result; /* 010 */ private org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder deserializetoobject_holder; /* 011 */ private org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter deserializetoobject_rowWriter; /* 012 */ private int mapelements_argValue; /* 013 */ private UnsafeRow mapelements_result; /* 014 */ private org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder mapelements_holder; /* 015 */ private org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter mapelements_rowWriter; /* 016 */ private UnsafeRow serializefromobject_result; /* 017 */ private org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder serializefromobject_holder; /* 018 */ private org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter serializefromobject_rowWriter; /* 019 */ /* 020 */ public GeneratedIterator(Object[] references) { /* 021 */ this.references = references; /* 022 */ } /* 023 */ /* 024 */ public void init(int index, scala.collection.Iterator[] inputs) { /* 025 */ partitionIndex = index; /* 026 */ this.inputs = inputs; /* 027 */ inputadapter_input = inputs[0]; /* 028 */ deserializetoobject_result = new UnsafeRow(1); /* 029 */ this.deserializetoobject_holder = new org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder(deserializetoobject_result, 0); /* 030 */ this.deserializetoobject_rowWriter = new org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter(deserializetoobject_holder, 1); /* 031 */ /* 032 */ mapelements_result = new UnsafeRow(1); /* 033 */ this.mapelements_holder = new org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder(mapelements_result, 0); /* 034 */ this.mapelements_rowWriter = new org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter(mapelements_holder, 1); /* 035 */ serializefromobject_result = new UnsafeRow(1); /* 036 */ this.serializefromobject_holder = new org.apache.spark.sql.catalyst.expressions.codegen.BufferHolder(serializefromobject_result, 0); /* 037 */ this.serializefromobject_rowWriter = new org.apache.spark.sql.catalyst.expressions.codegen.UnsafeRowWriter(serializefromobject_holder, 1); /* 038 */ /* 039 */ } /* 040 */ /* 041 */ protected void processNext() throws java.io.IOException { /* 042 */ while (inputadapter_input.hasNext() && !stopEarly()) { /* 043 */ InternalRow inputadapter_row = (InternalRow) inputadapter_input.next(); /* 044 */ int inputadapter_value = inputadapter_row.getInt(0); /* 045 */ /* 046 */ boolean mapelements_isNull = true; /* 047 */ int mapelements_value = -1; /* 048 */ if (!false) { /* 049 */ mapelements_argValue = inputadapter_value; /* 050 */ /* 051 */ mapelements_isNull = false; /* 052 */ if (!mapelements_isNull) { /* 053 */ mapelements_value = ((scala.Function1) references[0]).apply$mcII$sp(mapelements_argValue); /* 054 */ } /* 055 */ /* 056 */ } /* 057 */ /* 058 */ serializefromobject_rowWriter.zeroOutNullBytes(); /* 059 */ /* 060 */ if (mapelements_isNull) { /* 061 */ serializefromobject_rowWriter.setNullAt(0); /* 062 */ } else { /* 063 */ serializefromobject_rowWriter.write(0, mapelements_value); /* 064 */ } /* 065 */ append(serializefromobject_result); /* 066 */ if (shouldStop()) return; /* 067 */ } /* 068 */ } /* 069 */ } ``` Java bytecode for methods for `i => i * 7` ```java $ javap -c Test\$\$anonfun\$5\$\$anonfun\$apply\$mcV\$sp\$1.class Compiled from "Test.scala" public final class org.apache.spark.sql.Test$$anonfun$5$$anonfun$apply$mcV$sp$1 extends scala.runtime.AbstractFunction1$mcII$sp implements scala.Serializable { public static final long serialVersionUID; public final int apply(int); Code: 0: aload_0 1: iload_1 2: invokevirtual #18 // Method apply$mcII$sp:(I)I 5: ireturn public int apply$mcII$sp(int); Code: 0: iload_1 1: bipush 7 3: imul 4: ireturn public final java.lang.Object apply(java.lang.Object); Code: 0: aload_0 1: aload_1 2: invokestatic #29 // Method scala/runtime/BoxesRunTime.unboxToInt:(Ljava/lang/Object;)I 5: invokevirtual #31 // Method apply:(I)I 8: invokestatic #35 // Method scala/runtime/BoxesRunTime.boxToInteger:(I)Ljava/lang/Integer; 11: areturn public org.apache.spark.sql.Test$$anonfun$5$$anonfun$apply$mcV$sp$1(org.apache.spark.sql.Test$$anonfun$5); Code: 0: aload_0 1: invokespecial #42 // Method scala/runtime/AbstractFunction1$mcII$sp."<init>":()V 4: return } ``` ## How was this patch tested? Added new test suites to `DatasetPrimitiveSuite`. Author: Kazuaki Ishizaki <ishizaki@jp.ibm.com> Closes apache#17172 from kiszk/SPARK-19008.
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...e FutureAction
@markhamstra @vnivargi create a wrapper for saveAsHadoopFile so that we can pass in the post complete function to suit our purpose of making the save action cancellable, sparky functional test is good with this locally