Github user rxin commented on a diff in the pull request: https://github.com/apache/spark/pull/16395#discussion_r95524302 --- Diff: sql/catalyst/src/main/scala/org/apache/spark/sql/catalyst/plans/logical/statsEstimation/FilterEstimation.scala --- @@ -0,0 +1,555 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one or more + * contributor license agreements. See the NOTICE file distributed with + * this work for additional information regarding copyright ownership. + * The ASF licenses this file to You 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.catalyst.plans.logical.statsEstimation + +import scala.collection.immutable.{HashSet, Map} +import scala.collection.mutable + +import org.apache.spark.internal.Logging +import org.apache.spark.sql.catalyst.expressions._ +import org.apache.spark.sql.catalyst.plans.logical._ +import org.apache.spark.sql.catalyst.util.DateTimeUtils +import org.apache.spark.sql.types._ +import org.apache.spark.unsafe.types.UTF8String + + +class FilterEstimation extends Logging { + + /** + * We use a mutable colStats because we need to update the corresponding ColumnStat + * for a column after we apply a predicate condition. For example, A column c has + * [min, max] value as [0, 100]. In a range condition such as (c > 40 AND c <= 50), + * we need to set the column's [min, max] value to [40, 100] after we evaluate the + * first condition c > 40. We need to set the column's [min, max] value to [40, 50] + * after we evaluate the second condition c <= 50. + */ + private var mutableColStats: mutable.Map[ExprId, ColumnStat] = mutable.Map.empty + + /** + * Returns an option of Statistics for a Filter logical plan node. + * For a given compound expression condition, this method computes filter selectivity + * (or the percentage of rows meeting the filter condition), which + * is used to compute row count, size in bytes, and the updated statistics after a given + * predicated is applied. + * + * @param plan a LogicalPlan node that must be an instance of Filter. + * @return Option[Statistics] When there is no statistics collected, it returns None. + */ + def estimate(plan: Filter): Option[Statistics] = { + val stats: Statistics = plan.child.statistics + if (stats.rowCount.isEmpty) return None + + // save a mutable copy of colStats so that we can later change it recursively + val statsExprIdMap: Map[ExprId, ColumnStat] = + stats.attributeStats.map(kv => (kv._1.exprId, kv._2)) + mutableColStats = mutable.Map.empty ++= statsExprIdMap + + // estimate selectivity of this filter predicate + val percent: Double = calculateConditions(plan, plan.condition) + + // attributeStats has mapping Attribute-to-ColumnStat. + // mutableColStats has mapping ExprId-to-ColumnStat. + // We use an ExprId-to-Attribute map to facilitate the mapping Attribute-to-ColumnStat + val expridToAttrMap: Map[ExprId, Attribute] = + stats.attributeStats.map(kv => (kv._1.exprId, kv._1)) + // copy mutableColStats contents to an immutable AttributeMap. + val mutableAttributeStats: mutable.Map[Attribute, ColumnStat] = + mutableColStats.map(kv => expridToAttrMap(kv._1) -> kv._2) + val newColStats = AttributeMap(mutableAttributeStats.toSeq) + + val filteredRowCountValue: BigInt = + EstimationUtils.ceil(BigDecimal(stats.rowCount.get) * percent) + val avgRowSize = BigDecimal(EstimationUtils.getRowSize(plan.output, newColStats)) + val filteredSizeInBytes: BigInt = + EstimationUtils.ceil(BigDecimal(filteredRowCountValue) * avgRowSize) + + Some(stats.copy(sizeInBytes = filteredSizeInBytes, rowCount = Some(filteredRowCountValue), + attributeStats = newColStats)) + } + + /** + * Returns a percentage of rows meeting a compound condition in Filter node. + * A compound condition is depomposed into multiple single conditions linked with AND, OR, NOT. + * For logical AND conditions, we need to update stats after a condition estimation + * so that the stats will be more accurate for subsequent estimation. This is needed for + * range condition such as (c > 40 AND c <= 50) + * For logical OR conditions, we do not update stats after a condition estimation. + * + * @param plan the Filter LogicalPlan node + * @param condition the compound logical expression + * @param update a boolean flag to specify if we need to update ColumnStat of a column + * for subsequent conditions + * @return a doube value to show the percentage of rows meeting a given condition + */ + def calculateConditions( + plan: Filter, + condition: Expression, + update: Boolean = true) + : Double = { + + condition match { + case And(cond1, cond2) => + val p1 = calculateConditions(plan, cond1, update) + val p2 = calculateConditions(plan, cond2, update) + p1 * p2 + + case Or(cond1, cond2) => + val p1 = calculateConditions(plan, cond1, update = false) + val p2 = calculateConditions(plan, cond2, update = false) + math.min(1.0, p1 + p2 - (p1 * p2)) + + case Not(cond) => calculateSingleCondition(plan, cond, isNot = true, update = false) + case _ => calculateSingleCondition(plan, condition, isNot = false, update) + } + } + + /** + * Returns a percentage of rows meeting a single condition in Filter node. + * Currently we only support binary predicates where one side is a column, + * and the other is a literal. + * + * @param plan the Filter LogicalPlan node + * @param condition a single logical expression + * @param isNot set to true for "IS NULL" condition. set to false for "IS NOT NULL" condition + * @param update a boolean flag to specify if we need to update ColumnStat of a column + * for subsequent conditions + * @return a doube value to show the percentage of rows meeting a given condition + */ + def calculateSingleCondition( + plan: Filter, + condition: Expression, + isNot: Boolean, + update: Boolean) + : Double = { + var notSupported: Boolean = false + val percent: Double = condition match { + // For evaluateBinary method, we assume the literal on the right side of an operator. + // So we will change the order if not. + + // EqualTo does not care about the order + case op@EqualTo(ExtractAttr(ar), l: Literal) => + evaluateBinary(op, ar, l, update) + case op@EqualTo(l: Literal, ExtractAttr(ar)) => + evaluateBinary(op, ar, l, update) + + case op@LessThan(ExtractAttr(ar), l: Literal) => + evaluateBinary(op, ar, l, update) + case op@LessThan(l: Literal, ExtractAttr(ar)) => + evaluateBinary(GreaterThan(ar, l), ar, l, update) + + case op@LessThanOrEqual(ExtractAttr(ar), l: Literal) => + evaluateBinary(op, ar, l, update) + case op@LessThanOrEqual(l: Literal, ExtractAttr(ar)) => + evaluateBinary(GreaterThanOrEqual(ar, l), ar, l, update) + + case op@GreaterThan(ExtractAttr(ar), l: Literal) => + evaluateBinary(op, ar, l, update) + case op@GreaterThan(l: Literal, ExtractAttr(ar)) => + evaluateBinary(LessThan(ar, l), ar, l, update) + + case op@GreaterThanOrEqual(ExtractAttr(ar), l: Literal) => + evaluateBinary(op, ar, l, update) + case op@GreaterThanOrEqual(l: Literal, ExtractAttr(ar)) => + evaluateBinary(LessThanOrEqual(ar, l), ar, l, update) + + case In(ExtractAttr(ar), expList) if !expList.exists(!_.isInstanceOf[Literal]) => + // Expression [In (value, seq[Literal])] will be replaced with optimized version + // [InSet (value, HashSet[Literal])] in Optimizer, but only for list.size > 10. + // Here we convert In into InSet anyway, because they share the same processing logic. + val hSet = expList.map(e => e.eval()) + evaluateInSet(ar, HashSet() ++ hSet, update) + + case InSet(ExtractAttr(ar), set) => + evaluateInSet(ar, set, update) + + // It's difficult to estimate IsNull after outer joins. Hence, + // we support IsNull and IsNotNull only when the child is a leaf node (table). + case IsNull(ExtractAttr(ar)) => + if (plan.child.isInstanceOf[LeafNode ]) { + evaluateIsNull(plan, ar, true, update) + } + else 1.0 + + case IsNotNull(ExtractAttr(ar)) => + if (plan.child.isInstanceOf[LeafNode ]) { + evaluateIsNull(plan, ar, false, update) + } + else 1.0 + + case _ => + // TODO: it's difficult to support string operators without advanced statistics. + // Hence, these string operators Like(_, _) | Contains(_, _) | StartsWith(_, _) + // | EndsWith(_, _) are not supported yet + logDebug("[CBO] Unsupported filter condition: " + condition) + notSupported = true + 1.0 + } + if (notSupported) { + 1.0 + } else if (isNot) { + 1.0 - percent + } else { + percent + } + } + + /** + * Returns a percentage of rows meeting "IS NULL" or "IS NOT NULL" condition. + * + * @param plan the Filter LogicalPlan node + * @param attrRef an AttributeReference (or a column) + * @param isNull set to true for "IS NULL" condition. set to false for "IS NOT NULL" condition + * @param update a boolean flag to specify if we need to update ColumnStat of a given column + * for subsequent conditions + * @return a doube value to show the percentage of rows meeting a given condition + */ + def evaluateIsNull( + plan: Filter, + attrRef: AttributeReference, + isNull: Boolean, + update: Boolean) + : Double = { + if (!mutableColStats.contains(attrRef.exprId)) { + logDebug("[CBO] No statistics for " + attrRef) + return 1.0 + } + val aColStat = mutableColStats(attrRef.exprId) + val rowCountValue = plan.child.statistics.rowCount.get + val nullPercent: BigDecimal = + if (rowCountValue == 0) 0.0 + else BigDecimal(aColStat.nullCount)/BigDecimal(rowCountValue) + + if (update) { + val newStats = + if (isNull) aColStat.copy(distinctCount = 0, min = None, max = None) + else aColStat.copy(nullCount = 0) + + mutableColStats += (attrRef.exprId -> newStats) + } + + val percent = + if (isNull) nullPercent.toDouble + else { + /** ISNOTNULL(column) */ + 1.0 - nullPercent.toDouble + } + + percent + } + + /** + * Returns a percentage of rows meeting a binary comparison expression. + * + * @param op a binary comparison operator uch as =, <, <=, >, >= + * @param attrRef an AttributeReference (or a column) + * @param literal a literal value (or constant) + * @param update a boolean flag to specify if we need to update ColumnStat of a given column + * for subsequent conditions + * @return a doube value to show the percentage of rows meeting a given condition + */ + def evaluateBinary( + op: BinaryComparison, + attrRef: AttributeReference, + literal: Literal, + update: Boolean) + : Double = { + if (!mutableColStats.contains(attrRef.exprId)) { + logDebug("[CBO] No statistics for " + attrRef) + return 1.0 + } + + // Make sure that the Date/Timestamp literal is a valid one + attrRef.dataType match { + case DateType => + val dateLiteral = DateTimeUtils.stringToDate(literal.value.asInstanceOf[UTF8String]) + if (dateLiteral.isEmpty) { + logDebug("[CBO] Date literal is wrong, No statistics for " + attrRef) + return 1.0 + } + case TimestampType => + val tsLiteral = DateTimeUtils.stringToTimestamp(literal.value.asInstanceOf[UTF8String]) + if (tsLiteral.isEmpty) { + logDebug("[CBO] Timestamp literal is wrong, No statistics for " + attrRef) + return 1.0 + } + case _ => + } + + op match { + case EqualTo(l, r) => evaluateEqualTo(attrRef, literal, update) + case _ => + attrRef.dataType match { + case _: NumericType | DateType | TimestampType => + evaluateBinaryForNumeric(op, attrRef, literal, update) + case StringType | BinaryType => + + // TODO: It is difficult to support other binary comparisons for String/Binary + // type without min/max and advanced statistics like histogram. + + logDebug("[CBO] No statistics for String/Binary type " + attrRef) + return 1.0 + } + } + } + + /** + * This method converts a numeric or Literal value of numeric type to a BigDecimal value. + * If isNumeric is true, then it is a numeric value. Otherwise, it is a Literal value. + */ + def numericLiteralToBigDecimal( + literal: Any, + dataType: DataType, + isNumeric: Boolean = false) + : BigDecimal = { + dataType match { + case _: IntegralType => + val stringValue: String = + if (isNumeric) literal.toString + else literal.asInstanceOf[Literal].value.toString + BigDecimal(java.lang.Long.valueOf(stringValue)) + + case _: FractionalType => + if (isNumeric) BigDecimal(literal.asInstanceOf[Double]) + else BigDecimal(literal.asInstanceOf[Literal].value.asInstanceOf[Double]) + + case DateType => + if (isNumeric) BigDecimal(literal.asInstanceOf[BigInt]) + else { + val dateLiteral = DateTimeUtils.stringToDate( + literal.asInstanceOf[Literal].value.asInstanceOf[UTF8String]) + BigDecimal(dateLiteral.asInstanceOf[BigInt]) + } + + case TimestampType => + if (isNumeric) BigDecimal(literal.asInstanceOf[BigInt]) + else { + val tsLiteral = DateTimeUtils.stringToTimestamp( + literal.asInstanceOf[Literal].value.asInstanceOf[UTF8String]) + BigDecimal(tsLiteral.asInstanceOf[BigInt]) + } + } + } + + /** + * Returns a percentage of rows meeting an equality (=) expression. + * This method evaluates the equality predicate for all data types. + * + * @param attrRef an AttributeReference (or a column) + * @param literal a literal value (or constant) + * @param update a boolean flag to specify if we need to update ColumnStat of a given column + * for subsequent conditions + * @return a doube value to show the percentage of rows meeting a given condition + */ + def evaluateEqualTo( + attrRef: AttributeReference, + literal: Literal, + update: Boolean) + : Double = { + + val aColStat = mutableColStats(attrRef.exprId) + val ndv = aColStat.distinctCount + --- End diff -- remove the blank line
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