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limit_opt.go
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limit_opt.go
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// Copyright 2017 The Cockroach Authors.
//
// 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 sql
import (
"fmt"
"math"
)
// applyLimit tells this node to optimize things under the assumption that
// we will only need the first `numRows` rows.
//
// The special value math.MaxInt64 indicates "no limit".
//
// If soft is true, this is a "soft" limit and is only a hint; the node must
// still be able to produce all results if requested.
//
// If soft is false, this is a "hard" limit and is a promise that Next will
// never be called more than numRows times.
//
// The action of calling this method triggers limit-based query plan
// optimizations, e.g. in expandSelectNode(). The primary user is
// limitNode.Start(params) after it has fully evaluated the limit and
// offset expressions. EXPLAIN also does this, see expandPlan() for
// explainPlanNode.
//
// TODO(radu): Arguably, this interface has room for improvement. A
// limitNode may have a hard limit locally which is larger than the
// soft limit propagated up by nodes downstream. We may want to
// improve this API to pass both the soft and hard limit.
func applyLimit(plan planNode, numRows int64, soft bool) {
switch n := plan.(type) {
case *scanNode:
// Either a limitNode or EXPLAIN is pushing a limit down onto this
// node. The special value math.MaxInt64 means "no limit".
if !n.disableBatchLimits && numRows != math.MaxInt64 {
if soft {
n.hardLimit = 0
n.softLimit = numRows
} else {
n.hardLimit = numRows
n.softLimit = 0
}
}
case *limitNode:
// A higher-level limitNode or EXPLAIN is pushing a limit down onto
// this node. Prefer the local "hard" limit, unless the limit pushed
// down is "hard" and smaller than the local limit.
//
// TODO(radu): we may get a smaller "soft" limit from the upper node
// and we may have a larger "hard" limit locally. In general, it's
// not clear which of those results in less work.
if !n.evaluated {
n.estimateLimit()
}
count := n.count
if !soft && numRows < count {
count = numRows
}
applyLimit(n.plan, getLimit(count, n.offset), false /* soft */)
case *sortNode:
if n.needSort && numRows != math.MaxInt64 {
v := n.p.newContainerValuesNode(planColumns(n.plan), int(numRows))
v.ordering = n.ordering
if soft {
n.sortStrategy = newIterativeSortStrategy(v)
} else {
n.sortStrategy = newSortTopKStrategy(v, numRows)
}
}
if n.needSort {
// We can't propagate the limit, because the sort
// potentially needs all rows.
numRows = math.MaxInt64
soft = true
}
applyLimit(n.plan, numRows, soft)
case *groupNode:
if n.needOnlyOneRow {
// We have a single MIN/MAX function and the underlying plan's
// ordering matches the function. We only need to retrieve one row.
applyLimit(n.plan, 1, false /* !soft */)
} else {
setUnlimited(n.plan)
}
case *indexJoinNode:
// If we have a limit in the table node (i.e. post-index-join), the
// limit in the index is soft.
applyLimit(n.index, numRows, soft || !isFilterTrue(n.table.filter))
setUnlimited(n.table)
case *unionNode:
if n.right != nil {
applyLimit(n.right, numRows, true)
}
if n.left != nil {
applyLimit(n.left, numRows, true)
}
case *distinctNode:
applyLimit(n.plan, numRows, true)
case *filterNode:
applyLimit(n.source.plan, numRows, soft || !isFilterTrue(n.filter))
case *renderNode:
applyLimit(n.source.plan, numRows, soft)
case *windowNode:
setUnlimited(n.plan)
case *joinNode:
setUnlimited(n.left.plan)
setUnlimited(n.right.plan)
case *ordinalityNode:
applyLimit(n.source, numRows, soft)
case *delayedNode:
if n.plan != nil {
applyLimit(n.plan, numRows, soft)
}
case *deleteNode:
setUnlimited(n.run.rows)
case *updateNode:
setUnlimited(n.run.rows)
case *insertNode:
setUnlimited(n.run.rows)
case *createTableNode:
if n.sourcePlan != nil {
applyLimit(n.sourcePlan, numRows, soft)
}
case *explainDistSQLNode:
setUnlimited(n.plan)
case *traceNode:
setUnlimited(n.plan)
case *explainPlanNode:
if n.expanded {
setUnlimited(n.plan)
}
case *splitNode:
setUnlimited(n.rows)
case *testingRelocateNode:
setUnlimited(n.rows)
case *valuesNode:
case *alterTableNode:
case *cancelQueryNode:
case *controlJobNode:
case *copyNode:
case *createDatabaseNode:
case *createIndexNode:
case *createUserNode:
case *createViewNode:
case *dropDatabaseNode:
case *dropIndexNode:
case *dropTableNode:
case *dropViewNode:
case *dropUserNode:
case *zeroNode:
case *unaryNode:
case *hookFnNode:
case *valueGenerator:
case *setNode:
case *setClusterSettingNode:
case *showRangesNode:
case *showFingerprintsNode:
case *scatterNode:
default:
panic(fmt.Sprintf("unhandled node type: %T", plan))
}
}
func setUnlimited(plan planNode) {
applyLimit(plan, math.MaxInt64, true)
}
// getLimit computes the actual number of rows to request from the
// data source to honour both the required count and offset together.
// This also ensures that the resulting number of rows does not
// overflow.
func getLimit(count, offset int64) int64 {
if offset > math.MaxInt64-count {
count = math.MaxInt64 - offset
}
return count + offset
}