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logical_plans.go
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logical_plans.go
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// Copyright 2016 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/juju/errors"
"github.com/pingcap/tidb/ast"
"github.com/pingcap/tidb/expression"
"github.com/pingcap/tidb/expression/aggregation"
"github.com/pingcap/tidb/model"
"github.com/pingcap/tidb/mysql"
"github.com/pingcap/tidb/statistics"
"github.com/pingcap/tidb/util/types"
)
var (
_ LogicalPlan = &LogicalJoin{}
_ LogicalPlan = &LogicalAggregation{}
_ LogicalPlan = &Projection{}
_ LogicalPlan = &Selection{}
_ LogicalPlan = &LogicalApply{}
_ LogicalPlan = &Exists{}
_ LogicalPlan = &MaxOneRow{}
_ LogicalPlan = &TableDual{}
_ LogicalPlan = &DataSource{}
_ LogicalPlan = &Union{}
_ LogicalPlan = &Sort{}
_ LogicalPlan = &Update{}
_ LogicalPlan = &Delete{}
_ LogicalPlan = &SelectLock{}
_ LogicalPlan = &Limit{}
_ LogicalPlan = &Show{}
_ LogicalPlan = &Insert{}
)
// JoinType contains CrossJoin, InnerJoin, LeftOuterJoin, RightOuterJoin, FullOuterJoin, SemiJoin.
type JoinType int
const (
// InnerJoin means inner join.
InnerJoin JoinType = iota
// LeftOuterJoin means left join.
LeftOuterJoin
// RightOuterJoin means right join.
RightOuterJoin
// SemiJoin means if row a in table A matches some rows in B, just output a.
SemiJoin
// LeftOuterSemiJoin means if row a in table A matches some rows in B, output (a, true), otherwise, output (a, false).
LeftOuterSemiJoin
)
func (tp JoinType) String() string {
switch tp {
case InnerJoin:
return "inner join"
case LeftOuterJoin:
return "left outer join"
case RightOuterJoin:
return "right outer join"
case SemiJoin:
return "semi join"
case LeftOuterSemiJoin:
return "left outer semi join"
}
return "unsupported join type"
}
const (
preferLeftAsOuter = 1 << iota
preferRightAsOuter
)
// LogicalJoin is the logical join plan.
type LogicalJoin struct {
*basePlan
baseLogicalPlan
JoinType JoinType
anti bool
reordered bool
cartesianJoin bool
preferINLJ int
preferMergeJoin bool
EqualConditions []*expression.ScalarFunction
LeftConditions expression.CNFExprs
RightConditions expression.CNFExprs
OtherConditions expression.CNFExprs
LeftJoinKeys []*expression.Column
RightJoinKeys []*expression.Column
leftProperties [][]*expression.Column
rightProperties [][]*expression.Column
// DefaultValues is only used for outer join, which stands for the default values when the outer table cannot find join partner
// instead of null padding.
DefaultValues []types.Datum
// redundantSchema contains columns which are eliminated in join.
// For select * from a join b using (c); a.c will in output schema, and b.c will in redundantSchema.
redundantSchema *expression.Schema
}
func (p *LogicalJoin) columnSubstitute(schema *expression.Schema, exprs []expression.Expression) {
for i, fun := range p.EqualConditions {
p.EqualConditions[i] = expression.ColumnSubstitute(fun, schema, exprs).(*expression.ScalarFunction)
}
for i, fun := range p.LeftConditions {
p.LeftConditions[i] = expression.ColumnSubstitute(fun, schema, exprs)
}
for i, fun := range p.RightConditions {
p.RightConditions[i] = expression.ColumnSubstitute(fun, schema, exprs)
}
for i, fun := range p.OtherConditions {
p.OtherConditions[i] = expression.ColumnSubstitute(fun, schema, exprs)
}
}
func (p *LogicalJoin) attachOnConds(onConds []expression.Expression) {
eq, left, right, other := extractOnCondition(onConds, p.children[0].(LogicalPlan), p.children[1].(LogicalPlan))
p.EqualConditions = append(eq, p.EqualConditions...)
p.LeftConditions = append(left, p.LeftConditions...)
p.RightConditions = append(right, p.RightConditions...)
p.OtherConditions = append(other, p.OtherConditions...)
}
func (p *LogicalJoin) extractCorrelatedCols() []*expression.CorrelatedColumn {
corCols := p.basePlan.extractCorrelatedCols()
for _, fun := range p.EqualConditions {
corCols = append(corCols, extractCorColumns(fun)...)
}
for _, fun := range p.LeftConditions {
corCols = append(corCols, extractCorColumns(fun)...)
}
for _, fun := range p.RightConditions {
corCols = append(corCols, extractCorColumns(fun)...)
}
for _, fun := range p.OtherConditions {
corCols = append(corCols, extractCorColumns(fun)...)
}
return corCols
}
// Projection represents a select fields plan.
type Projection struct {
*basePlan
baseLogicalPlan
basePhysicalPlan
Exprs []expression.Expression
// calculateGenCols indicates the projection is for calculating generated columns.
// In *UPDATE*, we should know this to tell different projections.
calculateGenCols bool
}
func (p *Projection) extractCorrelatedCols() []*expression.CorrelatedColumn {
corCols := p.basePlan.extractCorrelatedCols()
for _, expr := range p.Exprs {
corCols = append(corCols, extractCorColumns(expr)...)
}
return corCols
}
// LogicalAggregation represents an aggregate plan.
type LogicalAggregation struct {
*basePlan
baseLogicalPlan
AggFuncs []aggregation.Aggregation
GroupByItems []expression.Expression
// groupByCols stores the columns that are group-by items.
groupByCols []*expression.Column
possibleProperties [][]*expression.Column
inputCount float64 // inputCount is the input count of this plan.
}
func (p *LogicalAggregation) extractCorrelatedCols() []*expression.CorrelatedColumn {
corCols := p.basePlan.extractCorrelatedCols()
for _, expr := range p.GroupByItems {
corCols = append(corCols, extractCorColumns(expr)...)
}
for _, fun := range p.AggFuncs {
for _, arg := range fun.GetArgs() {
corCols = append(corCols, extractCorColumns(arg)...)
}
}
return corCols
}
// Selection means a filter.
type Selection struct {
*basePlan
baseLogicalPlan
basePhysicalPlan
// Originally the WHERE or ON condition is parsed into a single expression,
// but after we converted to CNF(Conjunctive normal form), it can be
// split into a list of AND conditions.
Conditions []expression.Expression
// onTable means if this selection's child is a table scan or index scan.
onTable bool
// If ScanController is true, then the child of this selection is a scan,
// which use pk or index. we will record the accessConditions, idxConditions,
// and tblConditions to control the below plan.
ScanController bool
// We will check this at decorrelate phase.
controllerStatus int
}
func (p *Selection) extractCorrelatedCols() []*expression.CorrelatedColumn {
corCols := p.basePlan.extractCorrelatedCols()
for _, cond := range p.Conditions {
corCols = append(corCols, extractCorColumns(cond)...)
}
return corCols
}
// LogicalApply gets one row from outer executor and gets one row from inner executor according to outer row.
type LogicalApply struct {
LogicalJoin
corCols []*expression.CorrelatedColumn
}
func (p *LogicalApply) extractCorrelatedCols() []*expression.CorrelatedColumn {
corCols := p.LogicalJoin.extractCorrelatedCols()
for i := len(corCols) - 1; i >= 0; i-- {
if p.children[0].Schema().Contains(&corCols[i].Column) {
corCols = append(corCols[:i], corCols[i+1:]...)
}
}
return corCols
}
// Exists checks if a query returns result.
type Exists struct {
*basePlan
baseLogicalPlan
basePhysicalPlan
}
// MaxOneRow checks if a query returns no more than one row.
type MaxOneRow struct {
*basePlan
baseLogicalPlan
basePhysicalPlan
}
// TableDual represents a dual table plan.
type TableDual struct {
*basePlan
baseLogicalPlan
basePhysicalPlan
RowCount int
}
// DataSource represents a tablescan without condition push down.
type DataSource struct {
*basePlan
baseLogicalPlan
indexHints []*ast.IndexHint
tableInfo *model.TableInfo
Columns []*model.ColumnInfo
DBName model.CIStr
TableAsName *model.CIStr
LimitCount *int64
// pushedDownConds are the conditions that will be pushed down to coprocessor.
pushedDownConds []expression.Expression
statisticTable *statistics.Table
// NeedColHandle is used in execution phase.
NeedColHandle bool
// This is schema the PhysicalUnionScan should be.
unionScanSchema *expression.Schema
}
func (p *DataSource) getPKIsHandleCol() *expression.Column {
if !p.tableInfo.PKIsHandle {
return nil
}
for i, col := range p.Columns {
if mysql.HasPriKeyFlag(col.Flag) {
return p.schema.Columns[i]
}
}
return nil
}
// TableInfo returns the *TableInfo of data source.
func (p *DataSource) TableInfo() *model.TableInfo {
return p.tableInfo
}
// Schema implements the plan interface.
func (p *DataSource) Schema() *expression.Schema {
if p.unionScanSchema != nil {
return p.unionScanSchema
}
return p.schema
}
// Union represents Union plan.
type Union struct {
*basePlan
baseLogicalPlan
basePhysicalPlan
}
// Sort stands for the order by plan.
type Sort struct {
*basePlan
baseLogicalPlan
basePhysicalPlan
ByItems []*ByItems
ExecLimit *Limit // no longer be used by new plan
}
func (p *Sort) extractCorrelatedCols() []*expression.CorrelatedColumn {
corCols := p.basePlan.extractCorrelatedCols()
for _, item := range p.ByItems {
corCols = append(corCols, extractCorColumns(item.Expr)...)
}
return corCols
}
// TopN represents a top-n plan.
type TopN struct {
*basePlan
baseLogicalPlan
basePhysicalPlan
ByItems []*ByItems
Offset uint64
Count uint64
// partial is true if this topn is generated by push-down optimization.
partial bool
}
// isLimit checks if TopN is a limit plan.
func (t *TopN) isLimit() bool {
return len(t.ByItems) == 0
}
// Limit represents offset and limit plan.
type Limit struct {
*basePlan
baseLogicalPlan
basePhysicalPlan
Offset uint64
Count uint64
// partial is true if this topn is generated by push-down optimization.
partial bool
expectedProp *requiredProp
}
// Update represents Update plan.
type Update struct {
*basePlan
baseLogicalPlan
basePhysicalPlan
OrderedList []*expression.Assignment
IgnoreErr bool
}
// Delete represents a delete plan.
type Delete struct {
*basePlan
baseLogicalPlan
basePhysicalPlan
Tables []*ast.TableName
IsMultiTable bool
}
// setParentAndChildren sets parent and children relationship.
func setParentAndChildren(parent Plan, children ...Plan) {
if children == nil || parent == nil {
return
}
for _, child := range children {
child.SetParents(parent)
}
parent.SetChildren(children...)
}
// InsertPlan means inserting plan between two plans.
func InsertPlan(parent Plan, child Plan, insert Plan) error {
err := child.ReplaceParent(parent, insert)
if err != nil {
return errors.Trace(err)
}
err = parent.ReplaceChild(child, insert)
if err != nil {
return errors.Trace(err)
}
insert.AddChild(child)
insert.AddParent(parent)
return nil
}
// RemovePlan means removing a plan.
func RemovePlan(p Plan) error {
parents := p.Parents()
children := p.Children()
if len(parents) > 1 || len(children) != 1 {
return SystemInternalErrorType.Gen("can't remove this plan")
}
if len(parents) == 0 {
child := children[0]
child.SetParents()
return nil
}
parent, child := parents[0], children[0]
err := parent.ReplaceChild(p, child)
if err != nil {
return errors.Trace(err)
}
err = child.ReplaceParent(p, parent)
return errors.Trace(err)
}