LogicalTopN.java
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// to you under the Apache License, Version 2.0 (the
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//
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package org.apache.doris.nereids.trees.plans.logical;
import org.apache.doris.nereids.memo.GroupExpression;
import org.apache.doris.nereids.properties.DataTrait;
import org.apache.doris.nereids.properties.LogicalProperties;
import org.apache.doris.nereids.properties.OrderKey;
import org.apache.doris.nereids.trees.expressions.Expression;
import org.apache.doris.nereids.trees.expressions.Slot;
import org.apache.doris.nereids.trees.plans.ObjectId;
import org.apache.doris.nereids.trees.plans.Plan;
import org.apache.doris.nereids.trees.plans.PlanType;
import org.apache.doris.nereids.trees.plans.algebra.TopN;
import org.apache.doris.nereids.trees.plans.visitor.PlanVisitor;
import org.apache.doris.nereids.util.Utils;
import com.google.common.base.Preconditions;
import com.google.common.base.Supplier;
import com.google.common.base.Suppliers;
import com.google.common.collect.ImmutableList;
import java.util.List;
import java.util.Objects;
import java.util.Optional;
/**
* Logical top-N plan.
*/
public class LogicalTopN<CHILD_TYPE extends Plan> extends LogicalUnary<CHILD_TYPE> implements TopN {
private final List<OrderKey> orderKeys;
private final long limit;
private final long offset;
private final Supplier<List<Expression>> expressions;
public LogicalTopN(List<OrderKey> orderKeys, long limit, long offset, CHILD_TYPE child) {
this(orderKeys, limit, offset, Optional.empty(), Optional.empty(), child);
}
/**
* Constructor for LogicalSort.
*/
public LogicalTopN(List<OrderKey> orderKeys, long limit, long offset, Optional<GroupExpression> groupExpression,
Optional<LogicalProperties> logicalProperties, CHILD_TYPE child) {
super(PlanType.LOGICAL_TOP_N, groupExpression, logicalProperties, child);
this.orderKeys = ImmutableList.copyOf(Objects.requireNonNull(orderKeys, "orderKeys can not be null"));
this.limit = limit;
this.offset = offset;
this.expressions = Suppliers.memoize(() -> {
ImmutableList.Builder<Expression> exprs = ImmutableList.builderWithExpectedSize(orderKeys.size());
for (OrderKey orderKey : orderKeys) {
exprs.add(orderKey.getExpr());
}
return exprs.build();
});
}
@Override
public List<Slot> computeOutput() {
return child().getOutput();
}
@Override
public List<OrderKey> getOrderKeys() {
return orderKeys;
}
@Override
public long getOffset() {
return offset;
}
@Override
public long getLimit() {
return limit;
}
@Override
public String toString() {
return Utils.toSqlString("LogicalTopN",
"limit", limit,
"offset", offset,
"orderKeys", orderKeys
);
}
@Override
public boolean equals(Object o) {
if (this == o) {
return true;
}
if (o == null || getClass() != o.getClass()) {
return false;
}
LogicalTopN<?> that = (LogicalTopN<?>) o;
return this.offset == that.offset && this.limit == that.limit && Objects.equals(this.orderKeys, that.orderKeys);
}
@Override
public int hashCode() {
return Objects.hash(orderKeys, limit, offset);
}
@Override
public <R, C> R accept(PlanVisitor<R, C> visitor, C context) {
return visitor.visitLogicalTopN(this, context);
}
@Override
public List<? extends Expression> getExpressions() {
return expressions.get();
}
public LogicalTopN<Plan> withOrderKeys(List<OrderKey> orderKeys) {
return new LogicalTopN<>(orderKeys, limit, offset,
Optional.empty(), Optional.of(getLogicalProperties()), child());
}
public LogicalTopN<Plan> withLimitChild(long limit, long offset, Plan child) {
return new LogicalTopN<>(orderKeys, limit, offset, child);
}
public LogicalTopN<Plan> withLimitOrderKeyAndChild(long limit, long offset, List<OrderKey> orderKeys, Plan child) {
return new LogicalTopN<>(orderKeys, limit, offset, child);
}
@Override
public LogicalTopN<Plan> withChildren(List<Plan> children) {
Preconditions.checkArgument(children.size() == 1,
"LogicalTopN should have 1 child, but input is %s", children.size());
return new LogicalTopN<>(orderKeys, limit, offset, children.get(0));
}
@Override
public LogicalTopN<Plan> withGroupExpression(Optional<GroupExpression> groupExpression) {
return new LogicalTopN<>(orderKeys, limit, offset, groupExpression, Optional.of(getLogicalProperties()),
child());
}
@Override
public Plan withGroupExprLogicalPropChildren(Optional<GroupExpression> groupExpression,
Optional<LogicalProperties> logicalProperties, List<Plan> children) {
Preconditions.checkArgument(children.size() == 1);
return new LogicalTopN<>(orderKeys, limit, offset, groupExpression, logicalProperties, children.get(0));
}
@Override
public void computeUnique(DataTrait.Builder builder) {
if (getLimit() == 1) {
getOutput().forEach(builder::addUniqueSlot);
} else {
builder.addUniqueSlot(child(0).getLogicalProperties().getTrait());
}
}
@Override
public void computeUniform(DataTrait.Builder builder) {
if (getLimit() == 1) {
getOutput().forEach(builder::addUniformSlot);
} else {
builder.addUniformSlot(child(0).getLogicalProperties().getTrait());
}
}
@Override
public void computeEqualSet(DataTrait.Builder builder) {
builder.addEqualSet(child(0).getLogicalProperties().getTrait());
}
@Override
public void computeFd(DataTrait.Builder builder) {
builder.addFuncDepsDG(child().getLogicalProperties().getTrait());
}
@Override
public ObjectId getObjectId() {
return id;
}
}