org.apache.spark.sql.rapids.GpuInMemoryTableScanExec.scala Maven / Gradle / Ivy
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Creates the distribution package of the RAPIDS plugin for Apache Spark
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/*
* Copyright (c) 2021-2023, NVIDIA CORPORATION.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.spark.sql.rapids
import com.nvidia.spark.ParquetCachedBatchSerializer
import com.nvidia.spark.rapids.{DataFromReplacementRule, ExecChecks, GpuExec, GpuMetric, RapidsConf, RapidsMeta, SparkPlanMeta}
import com.nvidia.spark.rapids.shims.ShimLeafExecNode
import org.apache.spark.rdd.RDD
import org.apache.spark.sql.catalyst.InternalRow
import org.apache.spark.sql.catalyst.expressions.{Attribute, AttributeMap, Expression, SortOrder}
import org.apache.spark.sql.catalyst.plans.QueryPlan
import org.apache.spark.sql.catalyst.plans.physical.Partitioning
import org.apache.spark.sql.execution.SparkPlan
import org.apache.spark.sql.execution.columnar.{InMemoryRelation, InMemoryTableScanExec}
import org.apache.spark.sql.internal.{SQLConf, StaticSQLConf}
import org.apache.spark.sql.types.DataType
import org.apache.spark.sql.vectorized.ColumnarBatch
class InMemoryTableScanMeta(
imts: InMemoryTableScanExec,
conf: RapidsConf,
parent: Option[RapidsMeta[_, _, _]],
rule: DataFromReplacementRule)
extends SparkPlanMeta[InMemoryTableScanExec](imts, conf, parent, rule) {
override def tagPlanForGpu(): Unit = {
def stringifyTypeAttributeMap(groupedByType: Map[DataType, Set[String]]): String = {
groupedByType.map { case (dataType, nameSet) =>
dataType + " " + nameSet.mkString("[", ", ", "]")
}.mkString(", ")
}
val supportedTypeSig = rule.getChecks.get.asInstanceOf[ExecChecks]
val unsupportedTypes: Map[DataType, Set[String]] = imts.relation.output
.filterNot(attr => supportedTypeSig.check.isSupportedByPlugin(attr.dataType))
.groupBy(_.dataType)
.mapValues(_.map(_.name).toSet).toMap
val msgFormat = "unsupported data types in output: %s"
if (unsupportedTypes.nonEmpty) {
willNotWorkOnGpu(msgFormat.format(stringifyTypeAttributeMap(unsupportedTypes)))
}
if (!imts.relation.cacheBuilder.serializer
.isInstanceOf[com.nvidia.spark.ParquetCachedBatchSerializer]) {
willNotWorkOnGpu("ParquetCachedBatchSerializer is not being used")
if (SQLConf.get.getConf(StaticSQLConf.SPARK_CACHE_SERIALIZER)
.equals("com.nvidia.spark.ParquetCachedBatchSerializer")) {
throw new IllegalStateException("Cache serializer failed to load! " +
"Something went wrong while loading ParquetCachedBatchSerializer class")
}
}
}
/**
* Convert InMemoryTableScanExec to a GPU enabled version.
*/
override def convertToGpu(): GpuExec = {
GpuInMemoryTableScanExec(imts.attributes, imts.predicates, imts.relation)
}
}
case class GpuInMemoryTableScanExec(
attributes: Seq[Attribute],
predicates: Seq[Expression],
@transient relation: InMemoryRelation) extends ShimLeafExecNode with GpuExec {
override val nodeName: String = {
relation.cacheBuilder.tableName match {
case Some(_) =>
"Scan " + relation.cacheBuilder.cachedName
case _ =>
super.nodeName
}
}
override def innerChildren: Seq[QueryPlan[_]] = Seq(relation) ++ super.innerChildren
override def doCanonicalize(): SparkPlan =
copy(attributes = attributes.map(QueryPlan.normalizeExpressions(_, relation.output)),
predicates = predicates.map(QueryPlan.normalizeExpressions(_, relation.output)),
relation = relation.canonicalized.asInstanceOf[InMemoryRelation])
override def vectorTypes: Option[Seq[String]] =
relation.cacheBuilder.serializer.vectorTypes(attributes, conf)
private lazy val columnarInputRDD: RDD[ColumnarBatch] = {
val numOutputRows = gpuLongMetric(GpuMetric.NUM_OUTPUT_ROWS)
val buffers = filteredCachedBatches()
relation.cacheBuilder.serializer.asInstanceOf[ParquetCachedBatchSerializer]
.gpuConvertCachedBatchToColumnarBatch(
buffers,
relation.output,
attributes,
conf).map { cb =>
numOutputRows += cb.numRows()
cb
}
}
override def output: Seq[Attribute] = attributes
private def updateAttribute(expr: Expression): Expression = {
// attributes can be pruned so using relation's output.
// E.g., relation.output is [id, item] but this scan's output can be [item] only.
val attrMap = AttributeMap(relation.cachedPlan.output.zip(relation.output))
expr.transform {
case attr: Attribute => attrMap.getOrElse(attr, attr)
}
}
// The cached version does not change the outputPartitioning of the original SparkPlan.
// But the cached version could alias output, so we need to replace output.
override def outputPartitioning: Partitioning = {
relation.cachedPlan.outputPartitioning match {
case e: Expression => updateAttribute(e).asInstanceOf[Partitioning]
case other => other
}
}
// The cached version does not change the outputOrdering of the original SparkPlan.
// But the cached version could alias output, so we need to replace output.
override def outputOrdering: Seq[SortOrder] =
relation.cachedPlan.outputOrdering.map(updateAttribute(_).asInstanceOf[SortOrder])
lazy val enableAccumulatorsForTest: Boolean = sparkSession.sqlContext
.conf.inMemoryTableScanStatisticsEnabled
// Accumulators used for testing purposes
lazy val readPartitions = sparkSession.sparkContext.longAccumulator
lazy val readBatches = sparkSession.sparkContext.longAccumulator
private def filteredCachedBatches() = {
// Right now just return the batch without filtering
relation.cacheBuilder.cachedColumnBuffers
}
protected override def doExecute(): RDD[InternalRow] = {
throw new UnsupportedOperationException("This Exec only deals with Columnar Data")
}
protected override def internalDoExecuteColumnar(): RDD[ColumnarBatch] = {
columnarInputRDD
}
}
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