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initialize.go
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initialize.go
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// Copyright 2017 PingCAP, Inc.
//
// 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,
// See the License for the specific language governing permissions and
// limitations under the License.
package plan
import "github.com/pingcap/tidb/sessionctx"
const (
// TypeSel is the type of Selection.
TypeSel = "Selection"
// TypeSet is the type of Set.
TypeSet = "Set"
// TypeProj is the type of Projection.
TypeProj = "Projection"
// TypeAgg is the type of Aggregation.
TypeAgg = "Aggregation"
// TypeStreamAgg is the type of StreamAgg.
TypeStreamAgg = "StreamAgg"
// TypeHashAgg is the type of HashAgg.
TypeHashAgg = "HashAgg"
// TypeShow is the type of show.
TypeShow = "Show"
// TypeJoin is the type of Join.
TypeJoin = "Join"
// TypeUnion is the type of Union.
TypeUnion = "Union"
// TypeTableScan is the type of TableScan.
TypeTableScan = "TableScan"
// TypeMemTableScan is the type of TableScan.
TypeMemTableScan = "MemTableScan"
// TypeUnionScan is the type of UnionScan.
TypeUnionScan = "UnionScan"
// TypeIdxScan is the type of IndexScan.
TypeIdxScan = "IndexScan"
// TypeSort is the type of Sort.
TypeSort = "Sort"
// TypeTopN is the type of TopN.
TypeTopN = "TopN"
// TypeLimit is the type of Limit.
TypeLimit = "Limit"
// TypeHashLeftJoin is the type of left hash join.
TypeHashLeftJoin = "HashLeftJoin"
// TypeHashRightJoin is the type of right hash join.
TypeHashRightJoin = "HashRightJoin"
// TypeMergeJoin is the type of merge join.
TypeMergeJoin = "MergeJoin"
// TypeIndexJoin is the type of index look up join.
TypeIndexJoin = "IndexJoin"
// TypeApply is the type of Apply.
TypeApply = "Apply"
// TypeMaxOneRow is the type of MaxOneRow.
TypeMaxOneRow = "MaxOneRow"
// TypeExists is the type of Exists.
TypeExists = "Exists"
// TypeDual is the type of TableDual.
TypeDual = "TableDual"
// TypeLock is the type of SelectLock.
TypeLock = "SelectLock"
// TypeInsert is the type of Insert
TypeInsert = "Insert"
// TypeUpdate is the type of Update.
TypeUpdate = "Update"
// TypeDelete is the type of Delete.
TypeDelete = "Delete"
// TypeIndexLookUp is the type of IndexLookUp.
TypeIndexLookUp = "IndexLookUp"
// TypeTableReader is the type of TableReader.
TypeTableReader = "TableReader"
// TypeIndexReader is the type of IndexReader.
TypeIndexReader = "IndexReader"
)
func (la LogicalAggregation) init(ctx sessionctx.Context) *LogicalAggregation {
la.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeAgg, &la)
return &la
}
func (p LogicalJoin) init(ctx sessionctx.Context) *LogicalJoin {
p.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeJoin, &p)
return &p
}
func (ds DataSource) init(ctx sessionctx.Context) *DataSource {
ds.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeTableScan, &ds)
return &ds
}
func (la LogicalApply) init(ctx sessionctx.Context) *LogicalApply {
la.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeApply, &la)
return &la
}
func (p LogicalSelection) init(ctx sessionctx.Context) *LogicalSelection {
p.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeSel, &p)
return &p
}
func (p PhysicalSelection) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalSelection {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeSel, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (p LogicalUnionScan) init(ctx sessionctx.Context) *LogicalUnionScan {
p.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeUnionScan, &p)
return &p
}
func (p LogicalProjection) init(ctx sessionctx.Context) *LogicalProjection {
p.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeProj, &p)
return &p
}
func (p PhysicalProjection) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalProjection {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeProj, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (p LogicalUnionAll) init(ctx sessionctx.Context) *LogicalUnionAll {
p.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeUnion, &p)
return &p
}
func (p PhysicalUnionAll) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalUnionAll {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeUnion, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (ls LogicalSort) init(ctx sessionctx.Context) *LogicalSort {
ls.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeSort, &ls)
return &ls
}
func (p PhysicalSort) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalSort {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeSort, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (p NominalSort) init(ctx sessionctx.Context, props ...*requiredProp) *NominalSort {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeSort, &p)
p.childrenReqProps = props
return &p
}
func (lt LogicalTopN) init(ctx sessionctx.Context) *LogicalTopN {
lt.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeTopN, <)
return <
}
func (p PhysicalTopN) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalTopN {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeTopN, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (p LogicalLimit) init(ctx sessionctx.Context) *LogicalLimit {
p.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeLimit, &p)
return &p
}
func (p PhysicalLimit) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalLimit {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeLimit, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (p LogicalTableDual) init(ctx sessionctx.Context) *LogicalTableDual {
p.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeDual, &p)
return &p
}
func (p PhysicalTableDual) init(ctx sessionctx.Context, stats *StatsInfo) *PhysicalTableDual {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeDual, &p)
p.stats = stats
return &p
}
func (p LogicalExists) init(ctx sessionctx.Context) *LogicalExists {
p.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeExists, &p)
return &p
}
func (p PhysicalExists) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalExists {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeExists, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (p LogicalMaxOneRow) init(ctx sessionctx.Context) *LogicalMaxOneRow {
p.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeMaxOneRow, &p)
return &p
}
func (p PhysicalMaxOneRow) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalMaxOneRow {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeMaxOneRow, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (p Update) init(ctx sessionctx.Context) *Update {
p.basePlan = newBasePlan(ctx, TypeUpdate)
return &p
}
func (p Delete) init(ctx sessionctx.Context) *Delete {
p.basePlan = newBasePlan(ctx, TypeDelete)
return &p
}
func (p Insert) init(ctx sessionctx.Context) *Insert {
p.basePlan = newBasePlan(ctx, TypeInsert)
return &p
}
func (p Show) init(ctx sessionctx.Context) *Show {
p.basePlan = newBasePlan(ctx, TypeShow)
return &p
}
func (p LogicalLock) init(ctx sessionctx.Context) *LogicalLock {
p.baseLogicalPlan = newBaseLogicalPlan(ctx, TypeLock, &p)
return &p
}
func (p PhysicalLock) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalLock {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeLock, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (p PhysicalTableScan) init(ctx sessionctx.Context) *PhysicalTableScan {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeTableScan, &p)
return &p
}
func (p PhysicalIndexScan) init(ctx sessionctx.Context) *PhysicalIndexScan {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeIdxScan, &p)
return &p
}
func (p PhysicalMemTable) init(ctx sessionctx.Context, stats *StatsInfo) *PhysicalMemTable {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeMemTableScan, &p)
p.stats = stats
return &p
}
func (p PhysicalHashJoin) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalHashJoin {
tp := TypeHashRightJoin
if p.InnerChildIdx == 1 {
tp = TypeHashLeftJoin
}
p.basePhysicalPlan = newBasePhysicalPlan(ctx, tp, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (p PhysicalMergeJoin) init(ctx sessionctx.Context, stats *StatsInfo) *PhysicalMergeJoin {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeMergeJoin, &p)
p.stats = stats
return &p
}
func (base basePhysicalAgg) init(ctx sessionctx.Context, stats *StatsInfo) *basePhysicalAgg {
base.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeHashAgg, &base)
base.stats = stats
return &base
}
func (base basePhysicalAgg) initForHash(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalHashAgg {
p := &PhysicalHashAgg{base}
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeHashAgg, p)
p.childrenReqProps = props
p.stats = stats
return p
}
func (base basePhysicalAgg) initForStream(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalStreamAgg {
p := &PhysicalStreamAgg{base}
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeStreamAgg, p)
p.childrenReqProps = props
p.stats = stats
return p
}
func (p PhysicalApply) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalApply {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeApply, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (p PhysicalUnionScan) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalUnionScan {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeUnionScan, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
func (p PhysicalIndexLookUpReader) init(ctx sessionctx.Context) *PhysicalIndexLookUpReader {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeIndexLookUp, &p)
p.TablePlans = flattenPushDownPlan(p.tablePlan)
p.IndexPlans = flattenPushDownPlan(p.indexPlan)
p.schema = p.tablePlan.Schema()
return &p
}
func (p PhysicalTableReader) init(ctx sessionctx.Context) *PhysicalTableReader {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeTableReader, &p)
p.TablePlans = flattenPushDownPlan(p.tablePlan)
p.schema = p.tablePlan.Schema()
return &p
}
func (p PhysicalIndexReader) init(ctx sessionctx.Context) *PhysicalIndexReader {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeIndexReader, &p)
p.IndexPlans = flattenPushDownPlan(p.indexPlan)
switch p.indexPlan.(type) {
case *PhysicalHashAgg, *PhysicalStreamAgg:
p.schema = p.indexPlan.Schema()
default:
is := p.IndexPlans[0].(*PhysicalIndexScan)
p.schema = is.dataSourceSchema
}
p.OutputColumns = p.schema.Clone().Columns
return &p
}
func (p PhysicalIndexJoin) init(ctx sessionctx.Context, stats *StatsInfo, props ...*requiredProp) *PhysicalIndexJoin {
p.basePhysicalPlan = newBasePhysicalPlan(ctx, TypeIndexJoin, &p)
p.childrenReqProps = props
p.stats = stats
return &p
}
// flattenPushDownPlan converts a plan tree to a list, whose head is the leaf node like table scan.
func flattenPushDownPlan(p PhysicalPlan) []PhysicalPlan {
plans := make([]PhysicalPlan, 0, 5)
for {
plans = append(plans, p)
if len(p.Children()) == 0 {
break
}
p = p.Children()[0]
}
for i := 0; i < len(plans)/2; i++ {
j := len(plans) - i - 1
plans[i], plans[j] = plans[j], plans[i]
}
return plans
}