SimplifyAggGroupBy.java
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package org.apache.doris.nereids.rules.rewrite;
import org.apache.doris.nereids.rules.Rule;
import org.apache.doris.nereids.rules.RuleType;
import org.apache.doris.nereids.trees.expressions.Add;
import org.apache.doris.nereids.trees.expressions.BinaryArithmetic;
import org.apache.doris.nereids.trees.expressions.Cast;
import org.apache.doris.nereids.trees.expressions.Divide;
import org.apache.doris.nereids.trees.expressions.Expression;
import org.apache.doris.nereids.trees.expressions.Multiply;
import org.apache.doris.nereids.trees.expressions.Slot;
import org.apache.doris.nereids.trees.expressions.Subtract;
import org.apache.doris.nereids.trees.expressions.literal.Literal;
import org.apache.doris.nereids.types.DataType;
import org.apache.doris.nereids.types.DecimalV3Type;
import org.apache.doris.nereids.types.coercion.FractionalType;
import org.apache.doris.nereids.types.coercion.IntegralType;
import org.apache.doris.nereids.util.ExpressionUtils;
import org.apache.doris.nereids.util.Utils;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.collect.ImmutableSet;
import java.util.List;
import java.util.Set;
/**
* Simplify Aggregate group by Multiple to One. For example
* <p>
* GROUP BY ClientIP, ClientIP - 1, ClientIP - 2, ClientIP - 3
* -->
* GROUP BY ClientIP
*/
public class SimplifyAggGroupBy extends OneRewriteRuleFactory {
private static final ImmutableSet<Class<? extends Expression>> supportedFunctions
= ImmutableSet.of(Add.class, Subtract.class, Multiply.class, Divide.class);
@Override
public Rule build() {
return logicalAggregate()
.when(agg -> agg.getGroupByExpressions().size() > 1
&& ExpressionUtils.allMatch(agg.getGroupByExpressions(),
SimplifyAggGroupBy::isBinaryArithmeticSlot))
.then(agg -> {
List<Expression> groupByExpressions = agg.getGroupByExpressions();
ImmutableSet.Builder<Expression> inputSlots
= ImmutableSet.builderWithExpectedSize(groupByExpressions.size());
for (Expression groupByExpression : groupByExpressions) {
inputSlots.addAll(groupByExpression.getInputSlots());
}
Set<Expression> slots = inputSlots.build();
if (slots.size() != 1) {
return null;
}
return agg.withGroupByAndOutput(Utils.fastToImmutableList(slots), agg.getOutputExpressions());
})
.toRule(RuleType.SIMPLIFY_AGG_GROUP_BY);
}
@VisibleForTesting
protected static boolean isBinaryArithmeticSlot(Expression expr) {
if (expr instanceof Slot) {
return true;
}
if (!(expr instanceof BinaryArithmetic)) {
return false;
}
if (!supportedFunctions.contains(expr.getClass())) {
return false;
}
// Multiply / Divide: both sides must not be float/double
if (expr instanceof Multiply || expr instanceof Divide) {
if (expr.child(0).getDataType().isFloatLikeType()
|| expr.child(1).getDataType().isFloatLikeType()) {
return false;
}
}
Expression slotExpr;
Literal literal;
if (expr.child(0) instanceof Literal) {
literal = (Literal) expr.child(0);
slotExpr = expr.child(1);
} else if (expr.child(1) instanceof Literal) {
literal = (Literal) expr.child(1);
slotExpr = expr.child(0);
} else {
return false;
}
if (!canExtractSlot(slotExpr)) {
return false;
}
return checkLiteral(expr, literal);
}
@VisibleForTesting
protected static boolean checkLiteral(Expression expr, Literal literal) {
if (literal.isNullLiteral()) {
return false;
}
if (expr instanceof Multiply || expr instanceof Divide) {
if (literal.isZero()) {
return false;
}
}
return true;
}
@VisibleForTesting
protected static boolean canExtractSlot(Expression expr) {
while (expr instanceof Cast) {
Cast cast = (Cast) expr;
Expression inner = cast.child();
if (!isLosslessWidening(inner.getDataType(), cast.getDataType())) {
return false;
}
expr = inner;
}
return expr instanceof Slot;
}
@VisibleForTesting
protected static boolean isLosslessWidening(DataType src, DataType tgt) {
if (src instanceof IntegralType && tgt instanceof IntegralType) {
return src.width() <= tgt.width();
}
if (src instanceof FractionalType && tgt instanceof FractionalType) {
return src.width() <= tgt.width();
}
if (src.isDecimalLikeType() && tgt.isDecimalLikeType()) {
return DecimalV3Type.forType(src).getRange() <= DecimalV3Type.forType(tgt).getRange()
&& DecimalV3Type.forType(src).getScale() <= DecimalV3Type.forType(tgt).getScale();
}
if (src instanceof IntegralType && tgt.isDecimalLikeType()) {
return ((IntegralType) src).range() <= DecimalV3Type.forType(tgt).getRange();
}
return false;
}
}