Documentation ¶
Index ¶
- Constants
- Variables
- func Cacheable(node ast.Node) bool
- func ColumnsToProto(columns []*model.ColumnInfo, pkIsHandle bool) []*tipb.ColumnInfo
- func IndexToProto(t *model.TableInfo, idx *model.IndexInfo) *tipb.IndexInfo
- func NewPSTMTPlanCacheKey(sessionVars *variable.SessionVars, pstmtID uint32, schemaVersion int64) kvcache.Key
- func NewSQLCacheKey(sessionVars *variable.SessionVars, sql string, schemaVersion int64, ...) kvcache.Key
- func Preprocess(ctx sessionctx.Context, node ast.Node, is infoschema.InfoSchema, ...) error
- func SetPBColumnsDefaultValue(ctx sessionctx.Context, pbColumns []*tipb.ColumnInfo, ...) error
- func SupportStreaming(p PhysicalPlan) bool
- func ToString(p Plan) string
- type AggregateFuncExtractor
- type AggregationType
- type Analyze
- type AnalyzeColumnsTask
- type AnalyzeIndexTask
- type ByItems
- type CancelDDLJobs
- type CheckIndex
- type CheckIndexRange
- type CheckTable
- type ChecksumTable
- type CleanupIndex
- type DDL
- type DataSource
- func (ds *DataSource) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
- func (ds *DataSource) PruneColumns(parentUsedCols []*expression.Column)
- func (s *DataSource) Schema() *expression.Schema
- func (s *DataSource) SetSchema(schema *expression.Schema)
- func (ds *DataSource) TableInfo() *model.TableInfo
- type Deallocate
- type Delete
- type ErrExprLoc
- type Execute
- type Explain
- type Insert
- type InsertGeneratedColumns
- type JoinType
- type LoadData
- type LoadStats
- type LogicalAggregation
- func (la *LogicalAggregation) PredicatePushDown(predicates []expression.Expression) (ret []expression.Expression, retPlan LogicalPlan)
- func (la *LogicalAggregation) PruneColumns(parentUsedCols []*expression.Column)
- func (s *LogicalAggregation) Schema() *expression.Schema
- func (s *LogicalAggregation) SetSchema(schema *expression.Schema)
- type LogicalApply
- type LogicalExists
- type LogicalJoin
- func (p *LogicalJoin) PredicatePushDown(predicates []expression.Expression) (ret []expression.Expression, retPlan LogicalPlan)
- func (p *LogicalJoin) PruneColumns(parentUsedCols []*expression.Column)
- func (s *LogicalJoin) Schema() *expression.Schema
- func (s *LogicalJoin) SetSchema(schema *expression.Schema)
- type LogicalLimit
- func (p *LogicalLimit) Children() []LogicalPlan
- func (p *LogicalLimit) MaxOneRow() bool
- func (p *LogicalLimit) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
- func (p *LogicalLimit) PruneColumns(parentUsedCols []*expression.Column)
- func (p *LogicalLimit) Schema() *expression.Schema
- func (p *LogicalLimit) SetChildren(children ...LogicalPlan)
- type LogicalLock
- func (p *LogicalLock) Children() []LogicalPlan
- func (p *LogicalLock) MaxOneRow() bool
- func (p *LogicalLock) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
- func (p *LogicalLock) PruneColumns(parentUsedCols []*expression.Column)
- func (p *LogicalLock) Schema() *expression.Schema
- func (p *LogicalLock) SetChildren(children ...LogicalPlan)
- type LogicalMaxOneRow
- func (p *LogicalMaxOneRow) Children() []LogicalPlan
- func (p *LogicalMaxOneRow) MaxOneRow() bool
- func (p *LogicalMaxOneRow) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
- func (p *LogicalMaxOneRow) PruneColumns(parentUsedCols []*expression.Column)
- func (p *LogicalMaxOneRow) Schema() *expression.Schema
- func (p *LogicalMaxOneRow) SetChildren(children ...LogicalPlan)
- type LogicalPlan
- type LogicalProjection
- func (p *LogicalProjection) PredicatePushDown(predicates []expression.Expression) (ret []expression.Expression, retPlan LogicalPlan)
- func (p *LogicalProjection) PruneColumns(parentUsedCols []*expression.Column)
- func (s *LogicalProjection) Schema() *expression.Schema
- func (s *LogicalProjection) SetSchema(schema *expression.Schema)
- type LogicalSelection
- func (p *LogicalSelection) Children() []LogicalPlan
- func (p *LogicalSelection) MaxOneRow() bool
- func (p *LogicalSelection) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
- func (p *LogicalSelection) PruneColumns(parentUsedCols []*expression.Column)
- func (p *LogicalSelection) Schema() *expression.Schema
- func (p *LogicalSelection) SetChildren(children ...LogicalPlan)
- type LogicalSort
- func (p *LogicalSort) Children() []LogicalPlan
- func (p *LogicalSort) MaxOneRow() bool
- func (p *LogicalSort) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
- func (ls *LogicalSort) PruneColumns(parentUsedCols []*expression.Column)
- func (p *LogicalSort) Schema() *expression.Schema
- func (p *LogicalSort) SetChildren(children ...LogicalPlan)
- type LogicalTableDual
- type LogicalTopN
- func (p *LogicalTopN) Children() []LogicalPlan
- func (p *LogicalTopN) MaxOneRow() bool
- func (p *LogicalTopN) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
- func (p *LogicalTopN) PruneColumns(parentUsedCols []*expression.Column)
- func (p *LogicalTopN) Schema() *expression.Schema
- func (p *LogicalTopN) SetChildren(children ...LogicalPlan)
- type LogicalUnionAll
- func (p *LogicalUnionAll) Children() []LogicalPlan
- func (p *LogicalUnionAll) MaxOneRow() bool
- func (p *LogicalUnionAll) PredicatePushDown(predicates []expression.Expression) (ret []expression.Expression, retPlan LogicalPlan)
- func (p *LogicalUnionAll) PruneColumns(parentUsedCols []*expression.Column)
- func (p *LogicalUnionAll) Schema() *expression.Schema
- func (p *LogicalUnionAll) SetChildren(children ...LogicalPlan)
- type LogicalUnionScan
- func (p *LogicalUnionScan) Children() []LogicalPlan
- func (p *LogicalUnionScan) MaxOneRow() bool
- func (p *LogicalUnionScan) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
- func (p *LogicalUnionScan) PruneColumns(parentUsedCols []*expression.Column)
- func (p *LogicalUnionScan) Schema() *expression.Schema
- func (p *LogicalUnionScan) SetChildren(children ...LogicalPlan)
- type NominalSort
- func (p *NominalSort) Children() []PhysicalPlan
- func (p *NominalSort) ExplainInfo() string
- func (p *NominalSort) ResolveIndices()
- func (p *NominalSort) Schema() *expression.Schema
- func (p *NominalSort) SetChildren(children ...PhysicalPlan)
- func (p *NominalSort) StatsInfo() *statsInfo
- func (p *NominalSort) ToPB(_ sessionctx.Context) (*tipb.Executor, error)
- type PSTMTPlanCacheValue
- type PhysicalApply
- type PhysicalExists
- type PhysicalHashAgg
- type PhysicalHashJoin
- type PhysicalIndexJoin
- type PhysicalIndexLookUpReader
- type PhysicalIndexReader
- type PhysicalIndexScan
- func (p *PhysicalIndexScan) ExplainInfo() string
- func (p *PhysicalIndexScan) IsPointGetByUniqueKey(sc *stmtctx.StatementContext) bool
- func (p *PhysicalIndexScan) ResolveIndices()
- func (s *PhysicalIndexScan) Schema() *expression.Schema
- func (s *PhysicalIndexScan) SetSchema(schema *expression.Schema)
- func (p *PhysicalIndexScan) ToPB(ctx sessionctx.Context) (*tipb.Executor, error)
- type PhysicalLimit
- func (p *PhysicalLimit) Children() []PhysicalPlan
- func (p *PhysicalLimit) ExplainInfo() string
- func (p *PhysicalLimit) ResolveIndices()
- func (p *PhysicalLimit) Schema() *expression.Schema
- func (p *PhysicalLimit) SetChildren(children ...PhysicalPlan)
- func (p *PhysicalLimit) StatsInfo() *statsInfo
- func (p *PhysicalLimit) ToPB(ctx sessionctx.Context) (*tipb.Executor, error)
- type PhysicalLock
- func (p *PhysicalLock) Children() []PhysicalPlan
- func (p *PhysicalLock) ExplainInfo() string
- func (p *PhysicalLock) ResolveIndices()
- func (p *PhysicalLock) Schema() *expression.Schema
- func (p *PhysicalLock) SetChildren(children ...PhysicalPlan)
- func (p *PhysicalLock) StatsInfo() *statsInfo
- func (p *PhysicalLock) ToPB(_ sessionctx.Context) (*tipb.Executor, error)
- type PhysicalMaxOneRow
- func (p *PhysicalMaxOneRow) Children() []PhysicalPlan
- func (p *PhysicalMaxOneRow) ExplainInfo() string
- func (p *PhysicalMaxOneRow) ResolveIndices()
- func (p *PhysicalMaxOneRow) Schema() *expression.Schema
- func (p *PhysicalMaxOneRow) SetChildren(children ...PhysicalPlan)
- func (p *PhysicalMaxOneRow) StatsInfo() *statsInfo
- func (p *PhysicalMaxOneRow) ToPB(_ sessionctx.Context) (*tipb.Executor, error)
- type PhysicalMemTable
- type PhysicalMergeJoin
- type PhysicalPlan
- type PhysicalProjection
- type PhysicalSelection
- func (p *PhysicalSelection) Children() []PhysicalPlan
- func (p *PhysicalSelection) ExplainInfo() string
- func (p *PhysicalSelection) ResolveIndices()
- func (p *PhysicalSelection) Schema() *expression.Schema
- func (p *PhysicalSelection) SetChildren(children ...PhysicalPlan)
- func (p *PhysicalSelection) StatsInfo() *statsInfo
- func (p *PhysicalSelection) ToPB(ctx sessionctx.Context) (*tipb.Executor, error)
- type PhysicalSort
- func (p *PhysicalSort) Children() []PhysicalPlan
- func (p *PhysicalSort) ExplainInfo() string
- func (p *PhysicalSort) ResolveIndices()
- func (p *PhysicalSort) Schema() *expression.Schema
- func (p *PhysicalSort) SetChildren(children ...PhysicalPlan)
- func (p *PhysicalSort) StatsInfo() *statsInfo
- func (p *PhysicalSort) ToPB(_ sessionctx.Context) (*tipb.Executor, error)
- type PhysicalStreamAgg
- type PhysicalTableDual
- type PhysicalTableReader
- type PhysicalTableScan
- type PhysicalTopN
- func (p *PhysicalTopN) Children() []PhysicalPlan
- func (p *PhysicalTopN) ExplainInfo() string
- func (p *PhysicalTopN) ResolveIndices()
- func (p *PhysicalTopN) Schema() *expression.Schema
- func (p *PhysicalTopN) SetChildren(children ...PhysicalPlan)
- func (p *PhysicalTopN) StatsInfo() *statsInfo
- func (p *PhysicalTopN) ToPB(ctx sessionctx.Context) (*tipb.Executor, error)
- type PhysicalUnionAll
- func (p *PhysicalUnionAll) Children() []PhysicalPlan
- func (p *PhysicalUnionAll) ExplainInfo() string
- func (p *PhysicalUnionAll) ResolveIndices()
- func (p *PhysicalUnionAll) Schema() *expression.Schema
- func (p *PhysicalUnionAll) SetChildren(children ...PhysicalPlan)
- func (p *PhysicalUnionAll) StatsInfo() *statsInfo
- func (p *PhysicalUnionAll) ToPB(_ sessionctx.Context) (*tipb.Executor, error)
- type PhysicalUnionScan
- func (p *PhysicalUnionScan) Children() []PhysicalPlan
- func (p *PhysicalUnionScan) ExplainInfo() string
- func (p *PhysicalUnionScan) ResolveIndices()
- func (p *PhysicalUnionScan) Schema() *expression.Schema
- func (p *PhysicalUnionScan) SetChildren(children ...PhysicalPlan)
- func (p *PhysicalUnionScan) StatsInfo() *statsInfo
- func (p *PhysicalUnionScan) ToPB(_ sessionctx.Context) (*tipb.Executor, error)
- type Plan
- type Prepare
- type Prepared
- type RecoverIndex
- type SQLCacheValue
- type Set
- type Show
- type ShowDDL
- type ShowDDLJobQueries
- type ShowDDLJobs
- type Simple
- type Update
Constants ¶
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" )
const ( // TiDBMergeJoin is hint enforce merge join. TiDBMergeJoin = "tidb_smj" // TiDBIndexNestedLoopJoin is hint enforce index nested loop join. TiDBIndexNestedLoopJoin = "tidb_inlj" // TiDBHashJoin is hint enforce hash join. TiDBHashJoin = "tidb_hj" )
const ( // ErrExprInSelect is in select fields for the error of ErrFieldNotInGroupBy ErrExprInSelect = "SELECT list" // ErrExprInOrderBy is in order by items for the error of ErrFieldNotInGroupBy ErrExprInOrderBy = "ORDER BY" )
const ( CodeOperandColumns terror.ErrCode = 1 CodeInvalidWildCard = 3 CodeUnsupported = 4 CodeStmtNotFound = 7 CodeWrongParamCount = 8 CodeSchemaChanged = 9 // MySQL error code. CodeInvalidGroupFuncUse = mysql.ErrInvalidGroupFuncUse CodeIllegalReference = mysql.ErrIllegalReference CodeNoDB = mysql.ErrNoDB CodeUnknownExplainFormat = mysql.ErrUnknownExplainFormat CodeWrongGroupField = mysql.ErrWrongGroupField CodeDupFieldName = mysql.ErrDupFieldName CodeNonUpdatableTable = mysql.ErrNonUpdatableTable )
Optimizer error codes.
const ( CodeUnsupportedType terror.ErrCode = 1 SystemInternalError = 2 CodeAlterAutoID = 3 CodeAnalyzeMissIndex = 4 CodeAmbiguous = 1052 CodeUnknownColumn = mysql.ErrBadField CodeUnknownTable = mysql.ErrUnknownTable CodeWrongArguments = 1210 CodeBadGeneratedColumn = mysql.ErrBadGeneratedColumn CodeFieldNotInGroupBy = mysql.ErrFieldNotInGroupBy CodeBadTable = mysql.ErrBadTable CodeKeyDoesNotExist = mysql.ErrKeyDoesNotExist )
Error codes.
Variables ¶
var ( // GlobalPlanCache stores the global plan cache for every session in a tidb-server. GlobalPlanCache *kvcache.ShardedLRUCache // PreparedPlanCacheEnabled stores the global config "prepared-plan-cache-enabled". PreparedPlanCacheEnabled bool // PreparedPlanCacheCapacity stores the global config "prepared-plan-cache-capacity". PreparedPlanCacheCapacity uint )
var ( ErrOperandColumns = terror.ClassOptimizer.New(CodeOperandColumns, "Operand should contain %d column(s)") ErrInvalidWildCard = terror.ClassOptimizer.New(CodeInvalidWildCard, "Wildcard fields without any table name appears in wrong place") ErrCartesianProductUnsupported = terror.ClassOptimizer.New(CodeUnsupported, "Cartesian product is unsupported") ErrInvalidGroupFuncUse = terror.ClassOptimizer.New(CodeInvalidGroupFuncUse, "Invalid use of group function") ErrIllegalReference = terror.ClassOptimizer.New(CodeIllegalReference, mysql.MySQLErrName[mysql.ErrIllegalReference]) ErrNoDB = terror.ClassOptimizer.New(CodeNoDB, "No database selected") ErrUnknownExplainFormat = terror.ClassOptimizer.New(CodeUnknownExplainFormat, mysql.MySQLErrName[mysql.ErrUnknownExplainFormat]) ErrStmtNotFound = terror.ClassOptimizer.New(CodeStmtNotFound, "Prepared statement not found") ErrWrongParamCount = terror.ClassOptimizer.New(CodeWrongParamCount, "Wrong parameter count") ErrSchemaChanged = terror.ClassOptimizer.New(CodeSchemaChanged, "Schema has changed") ErrWrongGroupField = terror.ClassOptimizer.New(CodeWrongGroupField, mysql.MySQLErrName[mysql.ErrWrongGroupField]) ErrDupFieldName = terror.ClassOptimizer.New(CodeDupFieldName, mysql.MySQLErrName[mysql.ErrDupFieldName]) ErrNonUpdatableTable = terror.ClassOptimizer.New(CodeNonUpdatableTable, mysql.MySQLErrName[mysql.ErrNonUpdatableTable]) )
Optimizer base errors.
var ( ErrUnsupportedType = terror.ClassOptimizerPlan.New(CodeUnsupportedType, "Unsupported type %T") SystemInternalErrorType = terror.ClassOptimizerPlan.New(SystemInternalError, "System internal error") ErrUnknownColumn = terror.ClassOptimizerPlan.New(CodeUnknownColumn, mysql.MySQLErrName[mysql.ErrBadField]) ErrUnknownTable = terror.ClassOptimizerPlan.New(CodeUnknownTable, mysql.MySQLErrName[mysql.ErrUnknownTable]) ErrWrongArguments = terror.ClassOptimizerPlan.New(CodeWrongArguments, "Incorrect arguments to EXECUTE") ErrAmbiguous = terror.ClassOptimizerPlan.New(CodeAmbiguous, "Column '%s' in field list is ambiguous") ErrAnalyzeMissIndex = terror.ClassOptimizerPlan.New(CodeAnalyzeMissIndex, "Index '%s' in field list does not exist in table '%s'") ErrAlterAutoID = terror.ClassAutoid.New(CodeAlterAutoID, "No support for setting auto_increment using alter_table") ErrBadGeneratedColumn = terror.ClassOptimizerPlan.New(CodeBadGeneratedColumn, mysql.MySQLErrName[mysql.ErrBadGeneratedColumn]) ErrFieldNotInGroupBy = terror.ClassOptimizerPlan.New(CodeFieldNotInGroupBy, mysql.MySQLErrName[mysql.ErrFieldNotInGroupBy]) ErrBadTable = terror.ClassOptimizerPlan.New(CodeBadTable, mysql.MySQLErrName[mysql.ErrBadTable]) ErrKeyDoesNotExist = terror.ClassOptimizerPlan.New(CodeKeyDoesNotExist, mysql.MySQLErrName[mysql.ErrKeyDoesNotExist]) )
Error instances.
var AllowCartesianProduct = true
AllowCartesianProduct means whether tidb allows cartesian join without equal conditions.
var ( // ErrWrongUsage is returned when SQL operators are not properly used. ErrWrongUsage = terror.ClassParser.New(codeWrongUsage, mysql.MySQLErrName[mysql.ErrWrongUsage]) )
var EvalSubquery func(p PhysicalPlan, is infoschema.InfoSchema, ctx sessionctx.Context) ([][]types.Datum, error)
EvalSubquery evaluates incorrelated subqueries once.
var RatioOfPseudoEstimate = 0.7
RatioOfPseudoEstimate means if modifyCount / statsTblCount is greater than this ratio, we think the stats is invalid and use pseudo estimation.
Functions ¶
func ColumnsToProto ¶
func ColumnsToProto(columns []*model.ColumnInfo, pkIsHandle bool) []*tipb.ColumnInfo
ColumnsToProto converts a slice of model.ColumnInfo to a slice of tipb.ColumnInfo.
func IndexToProto ¶
IndexToProto converts a model.IndexInfo to a tipb.IndexInfo.
func NewPSTMTPlanCacheKey ¶
func NewPSTMTPlanCacheKey(sessionVars *variable.SessionVars, pstmtID uint32, schemaVersion int64) kvcache.Key
NewPSTMTPlanCacheKey creates a new pstmtPlanCacheKey object.
func NewSQLCacheKey ¶
func NewSQLCacheKey(sessionVars *variable.SessionVars, sql string, schemaVersion int64, readOnly bool) kvcache.Key
NewSQLCacheKey creates a new sqlCacheKey object.
func Preprocess ¶
func Preprocess(ctx sessionctx.Context, node ast.Node, is infoschema.InfoSchema, inPrepare bool) error
Preprocess resolves table names of the node, and checks some statements validation.
func SetPBColumnsDefaultValue ¶
func SetPBColumnsDefaultValue(ctx sessionctx.Context, pbColumns []*tipb.ColumnInfo, columns []*model.ColumnInfo) error
SetPBColumnsDefaultValue sets the default values of tipb.ColumnInfos.
func SupportStreaming ¶
func SupportStreaming(p PhysicalPlan) bool
SupportStreaming returns true if a pushed down operation supports using coprocessor streaming API. Note that this function handle pushed down physical plan only! It's called in constructDAGReq. Some plans are difficult (if possible) to implement streaming, and some are pointless to do so. TODO: Support more kinds of physical plan.
Types ¶
type AggregateFuncExtractor ¶
type AggregateFuncExtractor struct { // AggFuncs is the collected AggregateFuncExprs. AggFuncs []*ast.AggregateFuncExpr // contains filtered or unexported fields }
AggregateFuncExtractor visits Expr tree. It converts ColunmNameExpr to AggregateFuncExpr and collects AggregateFuncExpr.
type AggregationType ¶
type AggregationType int
AggregationType stands for the mode of aggregation plan.
const ( // StreamedAgg supposes its input is sorted by group by key. StreamedAgg AggregationType = iota // FinalAgg supposes its input is partial results. FinalAgg // CompleteAgg supposes its input is original results. CompleteAgg )
func (AggregationType) String ¶
func (at AggregationType) String() string
String implements fmt.Stringer interface.
type Analyze ¶
type Analyze struct { ColTasks []AnalyzeColumnsTask IdxTasks []AnalyzeIndexTask // contains filtered or unexported fields }
Analyze represents an analyze plan
func (*Analyze) Schema ¶
func (s *Analyze) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*Analyze) SetSchema ¶
func (s *Analyze) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type AnalyzeColumnsTask ¶
type AnalyzeColumnsTask struct { TableInfo *model.TableInfo PKInfo *model.ColumnInfo ColsInfo []*model.ColumnInfo }
AnalyzeColumnsTask is used for analyze columns.
type AnalyzeIndexTask ¶
AnalyzeIndexTask is used for analyze index.
type ByItems ¶
type ByItems struct { Expr expression.Expression Desc bool }
ByItems wraps a "by" item.
type CancelDDLJobs ¶ added in v1.0.1
type CancelDDLJobs struct { JobIDs []int64 // contains filtered or unexported fields }
CancelDDLJobs represents a cancel DDL jobs plan.
func (*CancelDDLJobs) Schema ¶ added in v1.0.1
func (s *CancelDDLJobs) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*CancelDDLJobs) SetSchema ¶ added in v1.0.1
func (s *CancelDDLJobs) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type CheckIndex ¶
type CheckIndex struct { IndexLookUpReader *PhysicalIndexLookUpReader DBName string IdxName string // contains filtered or unexported fields }
CheckIndex is used for checking index data, built from the 'admin check index' statement.
func (*CheckIndex) Schema ¶
func (s *CheckIndex) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*CheckIndex) SetSchema ¶
func (s *CheckIndex) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type CheckIndexRange ¶
type CheckIndexRange struct { Table *ast.TableName IndexName string HandleRanges []ast.HandleRange // contains filtered or unexported fields }
CheckIndexRange is used for checking index data, output the index values that handle within begin and end.
func (*CheckIndexRange) Schema ¶
func (s *CheckIndexRange) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*CheckIndexRange) SetSchema ¶
func (s *CheckIndexRange) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type CheckTable ¶
CheckTable is used for checking table data, built from the 'admin check table' statement.
func (*CheckTable) Schema ¶
func (s *CheckTable) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*CheckTable) SetSchema ¶
func (s *CheckTable) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type ChecksumTable ¶
ChecksumTable is used for calculating table checksum, built from the `admin checksum table` statement.
func (*ChecksumTable) Schema ¶
func (s *ChecksumTable) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*ChecksumTable) SetSchema ¶
func (s *ChecksumTable) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type CleanupIndex ¶
type CleanupIndex struct { Table *ast.TableName IndexName string // contains filtered or unexported fields }
CleanupIndex is used to delete dangling index data.
func (*CleanupIndex) Schema ¶
func (s *CleanupIndex) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*CleanupIndex) SetSchema ¶
func (s *CleanupIndex) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type DDL ¶
DDL represents a DDL statement plan.
func (*DDL) Schema ¶
func (s *DDL) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*DDL) SetSchema ¶
func (s *DDL) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type DataSource ¶
type DataSource struct { Columns []*model.ColumnInfo DBName model.CIStr TableAsName *model.CIStr LimitCount *int64 // contains filtered or unexported fields }
DataSource represents a tablescan without condition push down.
func (*DataSource) PredicatePushDown ¶
func (ds *DataSource) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
PredicatePushDown implements LogicalPlan PredicatePushDown interface.
func (*DataSource) PruneColumns ¶
func (ds *DataSource) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*DataSource) Schema ¶
func (s *DataSource) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*DataSource) SetSchema ¶
func (s *DataSource) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
func (*DataSource) TableInfo ¶
func (ds *DataSource) TableInfo() *model.TableInfo
TableInfo returns the *TableInfo of data source.
type Deallocate ¶
type Deallocate struct { Name string // contains filtered or unexported fields }
Deallocate represents deallocate plan.
func (*Deallocate) Schema ¶
func (s *Deallocate) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*Deallocate) SetSchema ¶
func (s *Deallocate) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type Delete ¶
type Delete struct { Tables []*ast.TableName IsMultiTable bool SelectPlan PhysicalPlan // contains filtered or unexported fields }
Delete represents a delete plan.
func (*Delete) Schema ¶
func (s *Delete) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*Delete) SetSchema ¶
func (s *Delete) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type ErrExprLoc ¶
ErrExprLoc is for generate the ErrFieldNotInGroupBy error info
type Execute ¶
type Execute struct { Name string UsingVars []expression.Expression ExecID uint32 Stmt ast.StmtNode Plan Plan // contains filtered or unexported fields }
Execute represents prepare plan.
func (*Execute) Schema ¶
func (s *Execute) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*Execute) SetSchema ¶
func (s *Execute) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type Explain ¶
Explain represents a explain plan.
func (*Explain) Schema ¶
func (s *Explain) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*Explain) SetSchema ¶
func (s *Explain) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type Insert ¶
type Insert struct { Table table.Table Columns []*ast.ColumnName Lists [][]expression.Expression Setlist []*expression.Assignment OnDuplicate []*expression.Assignment IsReplace bool Priority mysql.PriorityEnum IgnoreErr bool // NeedFillDefaultValue is true when expr in value list reference other column. NeedFillDefaultValue bool GenCols InsertGeneratedColumns SelectPlan PhysicalPlan // contains filtered or unexported fields }
Insert represents an insert plan.
func (*Insert) ResolveIndices ¶
func (p *Insert) ResolveIndices()
ResolveIndices implements Plan interface.
func (*Insert) Schema ¶
func (s *Insert) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*Insert) SetSchema ¶
func (s *Insert) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type InsertGeneratedColumns ¶
type InsertGeneratedColumns struct { Columns []*ast.ColumnName Exprs []expression.Expression OnDuplicates []*expression.Assignment }
InsertGeneratedColumns is for completing generated columns in Insert. We resolve generation expressions in plan, and eval those in executor.
type JoinType ¶
type JoinType int
JoinType contains CrossJoin, InnerJoin, LeftOuterJoin, RightOuterJoin, FullOuterJoin, SemiJoin.
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 // AntiSemiJoin means if row a in table A does not match any row in B, then output a. AntiSemiJoin // LeftOuterSemiJoin means if row a in table A matches some rows in B, output (a, true), otherwise, output (a, false). LeftOuterSemiJoin // AntiLeftOuterSemiJoin means if row a in table A matches some rows in B, output (a, false), otherwise, output (a, true). AntiLeftOuterSemiJoin )
type LoadData ¶
type LoadData struct { IsLocal bool Path string Table *ast.TableName Columns []*ast.ColumnName FieldsInfo *ast.FieldsClause LinesInfo *ast.LinesClause GenCols InsertGeneratedColumns // contains filtered or unexported fields }
LoadData represents a loaddata plan.
func (*LoadData) Schema ¶
func (s *LoadData) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*LoadData) SetSchema ¶
func (s *LoadData) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type LoadStats ¶
type LoadStats struct { Path string // contains filtered or unexported fields }
LoadStats represents a load stats plan.
func (*LoadStats) Schema ¶
func (s *LoadStats) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*LoadStats) SetSchema ¶
func (s *LoadStats) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type LogicalAggregation ¶
type LogicalAggregation struct { AggFuncs []*aggregation.AggFuncDesc GroupByItems []expression.Expression // contains filtered or unexported fields }
LogicalAggregation represents an aggregate plan.
func (*LogicalAggregation) PredicatePushDown ¶
func (la *LogicalAggregation) PredicatePushDown(predicates []expression.Expression) (ret []expression.Expression, retPlan LogicalPlan)
PredicatePushDown implements LogicalPlan PredicatePushDown interface.
func (*LogicalAggregation) PruneColumns ¶
func (la *LogicalAggregation) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalAggregation) Schema ¶
func (s *LogicalAggregation) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*LogicalAggregation) SetSchema ¶
func (s *LogicalAggregation) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type LogicalApply ¶
type LogicalApply struct { LogicalJoin // contains filtered or unexported fields }
LogicalApply gets one row from outer executor and gets one row from inner executor according to outer row.
func (*LogicalApply) PruneColumns ¶
func (la *LogicalApply) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalApply) Schema ¶
func (s *LogicalApply) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*LogicalApply) SetSchema ¶
func (s *LogicalApply) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type LogicalExists ¶
type LogicalExists struct {
// contains filtered or unexported fields
}
LogicalExists checks if a query returns result.
func (*LogicalExists) PruneColumns ¶
func (p *LogicalExists) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalExists) Schema ¶
func (s *LogicalExists) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*LogicalExists) SetSchema ¶
func (s *LogicalExists) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type LogicalJoin ¶
type LogicalJoin struct { JoinType JoinType StraightJoin bool EqualConditions []*expression.ScalarFunction LeftConditions expression.CNFExprs RightConditions expression.CNFExprs OtherConditions expression.CNFExprs LeftJoinKeys []*expression.Column RightJoinKeys []*expression.Column // DefaultValues is only used for left/right outer join, which is values the inner row's should be when the outer table // doesn't match any inner table's row. // That it's nil just means the default values is a slice of NULL. // Currently, only `aggregation push down` phase will set this. DefaultValues []types.Datum // contains filtered or unexported fields }
LogicalJoin is the logical join plan.
func (*LogicalJoin) PredicatePushDown ¶
func (p *LogicalJoin) PredicatePushDown(predicates []expression.Expression) (ret []expression.Expression, retPlan LogicalPlan)
PredicatePushDown implements LogicalPlan PredicatePushDown interface.
func (*LogicalJoin) PruneColumns ¶
func (p *LogicalJoin) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalJoin) Schema ¶
func (s *LogicalJoin) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*LogicalJoin) SetSchema ¶
func (s *LogicalJoin) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type LogicalLimit ¶
LogicalLimit represents offset and limit plan.
func (*LogicalLimit) Children ¶
func (p *LogicalLimit) Children() []LogicalPlan
Children implements LogicalPlan Children interface.
func (*LogicalLimit) PredicatePushDown ¶
func (p *LogicalLimit) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
PredicatePushDown implements LogicalPlan PredicatePushDown interface.
func (*LogicalLimit) PruneColumns ¶
func (p *LogicalLimit) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalLimit) Schema ¶
func (p *LogicalLimit) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*LogicalLimit) SetChildren ¶
func (p *LogicalLimit) SetChildren(children ...LogicalPlan)
SetChildren implements LogicalPlan SetChildren interface.
type LogicalLock ¶
type LogicalLock struct { Lock ast.SelectLockType // contains filtered or unexported fields }
LogicalLock represents a select lock plan.
func (*LogicalLock) Children ¶
func (p *LogicalLock) Children() []LogicalPlan
Children implements LogicalPlan Children interface.
func (*LogicalLock) PredicatePushDown ¶
func (p *LogicalLock) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
PredicatePushDown implements LogicalPlan interface.
func (*LogicalLock) PruneColumns ¶
func (p *LogicalLock) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalLock) Schema ¶
func (p *LogicalLock) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*LogicalLock) SetChildren ¶
func (p *LogicalLock) SetChildren(children ...LogicalPlan)
SetChildren implements LogicalPlan SetChildren interface.
type LogicalMaxOneRow ¶
type LogicalMaxOneRow struct {
// contains filtered or unexported fields
}
LogicalMaxOneRow checks if a query returns no more than one row.
func (*LogicalMaxOneRow) Children ¶
func (p *LogicalMaxOneRow) Children() []LogicalPlan
Children implements LogicalPlan Children interface.
func (*LogicalMaxOneRow) PredicatePushDown ¶
func (p *LogicalMaxOneRow) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
PredicatePushDown implements LogicalPlan PredicatePushDown interface.
func (*LogicalMaxOneRow) PruneColumns ¶
func (p *LogicalMaxOneRow) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalMaxOneRow) Schema ¶
func (p *LogicalMaxOneRow) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*LogicalMaxOneRow) SetChildren ¶
func (p *LogicalMaxOneRow) SetChildren(children ...LogicalPlan)
SetChildren implements LogicalPlan SetChildren interface.
type LogicalPlan ¶
type LogicalPlan interface { Plan // PredicatePushDown pushes down the predicates in the where/on/having clauses as deeply as possible. // It will accept a predicate that is an expression slice, and return the expressions that can't be pushed. // Because it might change the root if the having clause exists, we need to return a plan that represents a new root. PredicatePushDown([]expression.Expression) ([]expression.Expression, LogicalPlan) // PruneColumns prunes the unused columns. PruneColumns([]*expression.Column) // MaxOneRow means whether this operator only returns max one row. MaxOneRow() bool // Get all the children. Children() []LogicalPlan // SetChildren sets the children for the plan. SetChildren(...LogicalPlan) // contains filtered or unexported methods }
LogicalPlan is a tree of logical operators. We can do a lot of logical optimizations to it, like predicate pushdown and column pruning.
type LogicalProjection ¶
type LogicalProjection struct { Exprs []expression.Expression // contains filtered or unexported fields }
LogicalProjection represents a select fields plan.
func (*LogicalProjection) PredicatePushDown ¶
func (p *LogicalProjection) PredicatePushDown(predicates []expression.Expression) (ret []expression.Expression, retPlan LogicalPlan)
PredicatePushDown implements LogicalPlan PredicatePushDown interface.
func (*LogicalProjection) PruneColumns ¶
func (p *LogicalProjection) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface. If any expression has SetVar functions, we do not prune it.
func (*LogicalProjection) Schema ¶
func (s *LogicalProjection) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*LogicalProjection) SetSchema ¶
func (s *LogicalProjection) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type LogicalSelection ¶
type LogicalSelection struct { // 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 // contains filtered or unexported fields }
LogicalSelection represents a where or having predicate.
func (*LogicalSelection) Children ¶
func (p *LogicalSelection) Children() []LogicalPlan
Children implements LogicalPlan Children interface.
func (*LogicalSelection) PredicatePushDown ¶
func (p *LogicalSelection) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
PredicatePushDown implements LogicalPlan PredicatePushDown interface.
func (*LogicalSelection) PruneColumns ¶
func (p *LogicalSelection) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalSelection) Schema ¶
func (p *LogicalSelection) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*LogicalSelection) SetChildren ¶
func (p *LogicalSelection) SetChildren(children ...LogicalPlan)
SetChildren implements LogicalPlan SetChildren interface.
type LogicalSort ¶
type LogicalSort struct { ByItems []*ByItems // contains filtered or unexported fields }
LogicalSort stands for the order by plan.
func (*LogicalSort) Children ¶
func (p *LogicalSort) Children() []LogicalPlan
Children implements LogicalPlan Children interface.
func (*LogicalSort) PredicatePushDown ¶
func (p *LogicalSort) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
PredicatePushDown implements LogicalPlan interface.
func (*LogicalSort) PruneColumns ¶
func (ls *LogicalSort) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalSort) Schema ¶
func (p *LogicalSort) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*LogicalSort) SetChildren ¶
func (p *LogicalSort) SetChildren(children ...LogicalPlan)
SetChildren implements LogicalPlan SetChildren interface.
type LogicalTableDual ¶
type LogicalTableDual struct { RowCount int // contains filtered or unexported fields }
LogicalTableDual represents a dual table plan.
func (*LogicalTableDual) PredicatePushDown ¶
func (p *LogicalTableDual) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
PredicatePushDown implements LogicalPlan PredicatePushDown interface.
func (*LogicalTableDual) Schema ¶
func (s *LogicalTableDual) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*LogicalTableDual) SetSchema ¶
func (s *LogicalTableDual) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type LogicalTopN ¶
type LogicalTopN struct { ByItems []*ByItems Offset uint64 Count uint64 // contains filtered or unexported fields }
LogicalTopN represents a top-n plan.
func (*LogicalTopN) Children ¶
func (p *LogicalTopN) Children() []LogicalPlan
Children implements LogicalPlan Children interface.
func (*LogicalTopN) PredicatePushDown ¶
func (p *LogicalTopN) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
PredicatePushDown implements LogicalPlan interface.
func (*LogicalTopN) PruneColumns ¶
func (p *LogicalTopN) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalTopN) Schema ¶
func (p *LogicalTopN) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*LogicalTopN) SetChildren ¶
func (p *LogicalTopN) SetChildren(children ...LogicalPlan)
SetChildren implements LogicalPlan SetChildren interface.
type LogicalUnionAll ¶
type LogicalUnionAll struct {
// contains filtered or unexported fields
}
LogicalUnionAll represents LogicalUnionAll plan.
func (*LogicalUnionAll) Children ¶
func (p *LogicalUnionAll) Children() []LogicalPlan
Children implements LogicalPlan Children interface.
func (*LogicalUnionAll) PredicatePushDown ¶
func (p *LogicalUnionAll) PredicatePushDown(predicates []expression.Expression) (ret []expression.Expression, retPlan LogicalPlan)
PredicatePushDown implements LogicalPlan PredicatePushDown interface.
func (*LogicalUnionAll) PruneColumns ¶
func (p *LogicalUnionAll) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalUnionAll) Schema ¶
func (p *LogicalUnionAll) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*LogicalUnionAll) SetChildren ¶
func (p *LogicalUnionAll) SetChildren(children ...LogicalPlan)
SetChildren implements LogicalPlan SetChildren interface.
type LogicalUnionScan ¶
type LogicalUnionScan struct {
// contains filtered or unexported fields
}
LogicalUnionScan is only used in non read-only txn.
func (*LogicalUnionScan) Children ¶
func (p *LogicalUnionScan) Children() []LogicalPlan
Children implements LogicalPlan Children interface.
func (*LogicalUnionScan) PredicatePushDown ¶
func (p *LogicalUnionScan) PredicatePushDown(predicates []expression.Expression) ([]expression.Expression, LogicalPlan)
PredicatePushDown implements LogicalPlan PredicatePushDown interface.
func (*LogicalUnionScan) PruneColumns ¶
func (p *LogicalUnionScan) PruneColumns(parentUsedCols []*expression.Column)
PruneColumns implements LogicalPlan interface.
func (*LogicalUnionScan) Schema ¶
func (p *LogicalUnionScan) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*LogicalUnionScan) SetChildren ¶
func (p *LogicalUnionScan) SetChildren(children ...LogicalPlan)
SetChildren implements LogicalPlan SetChildren interface.
type NominalSort ¶
type NominalSort struct {
// contains filtered or unexported fields
}
NominalSort asks sort properties for its child. It is a fake operator that will not appear in final physical operator tree.
func (*NominalSort) Children ¶
func (p *NominalSort) Children() []PhysicalPlan
Children implements PhysicalPlan Children interface.
func (*NominalSort) ExplainInfo ¶
func (p *NominalSort) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*NominalSort) ResolveIndices ¶
func (p *NominalSort) ResolveIndices()
ResolveIndices implements Plan interface.
func (*NominalSort) Schema ¶
func (p *NominalSort) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*NominalSort) SetChildren ¶
func (p *NominalSort) SetChildren(children ...PhysicalPlan)
SetChildren implements PhysicalPlan SetChildren interface.
type PSTMTPlanCacheValue ¶
type PSTMTPlanCacheValue struct {
Plan Plan
}
PSTMTPlanCacheValue stores the cached Statement and StmtNode.
func NewPSTMTPlanCacheValue ¶
func NewPSTMTPlanCacheValue(plan Plan) *PSTMTPlanCacheValue
NewPSTMTPlanCacheValue creates a SQLCacheValue.
type PhysicalApply ¶
type PhysicalApply struct { PhysicalJoin *PhysicalHashJoin OuterSchema []*expression.CorrelatedColumn // contains filtered or unexported fields }
PhysicalApply represents apply plan, only used for subquery.
func (*PhysicalApply) ExplainInfo ¶
func (p *PhysicalApply) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalApply) ResolveIndices ¶
func (p *PhysicalApply) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalApply) Schema ¶
func (s *PhysicalApply) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalApply) SetSchema ¶
func (s *PhysicalApply) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type PhysicalExists ¶
type PhysicalExists struct {
// contains filtered or unexported fields
}
PhysicalExists is the physical operator of Exists.
func (*PhysicalExists) ResolveIndices ¶
func (p *PhysicalExists) ResolveIndices()
func (*PhysicalExists) Schema ¶
func (s *PhysicalExists) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalExists) SetSchema ¶
func (s *PhysicalExists) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type PhysicalHashAgg ¶
type PhysicalHashAgg struct {
// contains filtered or unexported fields
}
PhysicalHashAgg is hash operator of aggregate.
func (*PhysicalHashAgg) ExplainInfo ¶
func (p *PhysicalHashAgg) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalHashAgg) ResolveIndices ¶
func (p *PhysicalHashAgg) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalHashAgg) ToPB ¶
func (p *PhysicalHashAgg) ToPB(ctx sessionctx.Context) (*tipb.Executor, error)
ToPB implements PhysicalPlan ToPB interface.
type PhysicalHashJoin ¶
type PhysicalHashJoin struct { JoinType JoinType EqualConditions []*expression.ScalarFunction LeftConditions []expression.Expression RightConditions []expression.Expression OtherConditions []expression.Expression // InnerChildIdx indicates which child is to build the hash table. // For inner join, the smaller one will be chosen. // For outer join or semi join, it's exactly the inner one. InnerChildIdx int Concurrency uint DefaultValues []types.Datum // contains filtered or unexported fields }
PhysicalHashJoin represents hash join for inner/ outer join.
func (*PhysicalHashJoin) ExplainInfo ¶
func (p *PhysicalHashJoin) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalHashJoin) ResolveIndices ¶
func (p *PhysicalHashJoin) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalHashJoin) Schema ¶
func (s *PhysicalHashJoin) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalHashJoin) SetSchema ¶
func (s *PhysicalHashJoin) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type PhysicalIndexJoin ¶
type PhysicalIndexJoin struct { JoinType JoinType OuterJoinKeys []*expression.Column InnerJoinKeys []*expression.Column LeftConditions expression.CNFExprs RightConditions expression.CNFExprs OtherConditions expression.CNFExprs OuterIndex int DefaultValues []types.Datum // Ranges stores the IndexRanges when the inner plan is index scan. Ranges []*ranger.NewRange // KeyOff2IdxOff maps the offsets in join key to the offsets in the index. KeyOff2IdxOff []int // contains filtered or unexported fields }
PhysicalIndexJoin represents the plan of index look up join.
func (*PhysicalIndexJoin) ExplainInfo ¶
func (p *PhysicalIndexJoin) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalIndexJoin) ResolveIndices ¶
func (p *PhysicalIndexJoin) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalIndexJoin) Schema ¶
func (s *PhysicalIndexJoin) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalIndexJoin) SetSchema ¶
func (s *PhysicalIndexJoin) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type PhysicalIndexLookUpReader ¶
type PhysicalIndexLookUpReader struct { // IndexPlans flats the indexPlan to construct executor pb. IndexPlans []PhysicalPlan // TablePlans flats the tablePlan to construct executor pb. TablePlans []PhysicalPlan // contains filtered or unexported fields }
PhysicalIndexLookUpReader is the index look up reader in tidb. It's used in case of double reading.
func (*PhysicalIndexLookUpReader) ExplainInfo ¶
func (p *PhysicalIndexLookUpReader) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalIndexLookUpReader) ResolveIndices ¶
func (p *PhysicalIndexLookUpReader) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalIndexLookUpReader) Schema ¶
func (s *PhysicalIndexLookUpReader) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalIndexLookUpReader) SetSchema ¶
func (s *PhysicalIndexLookUpReader) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type PhysicalIndexReader ¶
type PhysicalIndexReader struct { // IndexPlans flats the indexPlan to construct executor pb. IndexPlans []PhysicalPlan // OutputColumns represents the columns that index reader should return. OutputColumns []*expression.Column // contains filtered or unexported fields }
PhysicalIndexReader is the index reader in tidb.
func (*PhysicalIndexReader) ExplainInfo ¶
func (p *PhysicalIndexReader) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalIndexReader) ResolveIndices ¶
func (p *PhysicalIndexReader) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalIndexReader) Schema ¶
func (s *PhysicalIndexReader) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalIndexReader) SetSchema ¶
func (s *PhysicalIndexReader) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type PhysicalIndexScan ¶
type PhysicalIndexScan struct { // AccessCondition is used to calculate range. AccessCondition []expression.Expression Table *model.TableInfo Index *model.IndexInfo Ranges []*ranger.NewRange Columns []*model.ColumnInfo DBName model.CIStr Desc bool KeepOrder bool // DoubleRead means if the index executor will read kv two times. // If the query requires the columns that don't belong to index, DoubleRead will be true. DoubleRead bool TableAsName *model.CIStr // Hist is the histogram when the query was issued. // It is used for query feedback. Hist *statistics.Histogram // contains filtered or unexported fields }
PhysicalIndexScan represents an index scan plan.
func (*PhysicalIndexScan) ExplainInfo ¶
func (p *PhysicalIndexScan) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalIndexScan) IsPointGetByUniqueKey ¶
func (p *PhysicalIndexScan) IsPointGetByUniqueKey(sc *stmtctx.StatementContext) bool
IsPointGetByUniqueKey checks whether is a point get by unique key.
func (*PhysicalIndexScan) ResolveIndices ¶
func (p *PhysicalIndexScan) ResolveIndices()
func (*PhysicalIndexScan) Schema ¶
func (s *PhysicalIndexScan) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalIndexScan) SetSchema ¶
func (s *PhysicalIndexScan) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
func (*PhysicalIndexScan) ToPB ¶
func (p *PhysicalIndexScan) ToPB(ctx sessionctx.Context) (*tipb.Executor, error)
ToPB implements PhysicalPlan ToPB interface.
type PhysicalLimit ¶
PhysicalLimit is the physical operator of Limit.
func (*PhysicalLimit) Children ¶
func (p *PhysicalLimit) Children() []PhysicalPlan
Children implements PhysicalPlan Children interface.
func (*PhysicalLimit) ExplainInfo ¶
func (p *PhysicalLimit) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalLimit) ResolveIndices ¶
func (p *PhysicalLimit) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalLimit) Schema ¶
func (p *PhysicalLimit) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*PhysicalLimit) SetChildren ¶
func (p *PhysicalLimit) SetChildren(children ...PhysicalPlan)
SetChildren implements PhysicalPlan SetChildren interface.
func (*PhysicalLimit) ToPB ¶
func (p *PhysicalLimit) ToPB(ctx sessionctx.Context) (*tipb.Executor, error)
ToPB implements PhysicalPlan ToPB interface.
type PhysicalLock ¶
type PhysicalLock struct { Lock ast.SelectLockType // contains filtered or unexported fields }
PhysicalLock is the physical operator of lock, which is used for `select ... for update` clause.
func (*PhysicalLock) Children ¶
func (p *PhysicalLock) Children() []PhysicalPlan
Children implements PhysicalPlan Children interface.
func (*PhysicalLock) ExplainInfo ¶
func (p *PhysicalLock) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalLock) ResolveIndices ¶
func (p *PhysicalLock) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalLock) Schema ¶
func (p *PhysicalLock) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*PhysicalLock) SetChildren ¶
func (p *PhysicalLock) SetChildren(children ...PhysicalPlan)
SetChildren implements PhysicalPlan SetChildren interface.
type PhysicalMaxOneRow ¶
type PhysicalMaxOneRow struct {
// contains filtered or unexported fields
}
PhysicalMaxOneRow is the physical operator of maxOneRow.
func (*PhysicalMaxOneRow) Children ¶
func (p *PhysicalMaxOneRow) Children() []PhysicalPlan
Children implements PhysicalPlan Children interface.
func (*PhysicalMaxOneRow) ExplainInfo ¶
func (p *PhysicalMaxOneRow) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalMaxOneRow) ResolveIndices ¶
func (p *PhysicalMaxOneRow) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalMaxOneRow) Schema ¶
func (p *PhysicalMaxOneRow) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*PhysicalMaxOneRow) SetChildren ¶
func (p *PhysicalMaxOneRow) SetChildren(children ...PhysicalPlan)
SetChildren implements PhysicalPlan SetChildren interface.
type PhysicalMemTable ¶
type PhysicalMemTable struct { DBName model.CIStr Table *model.TableInfo Columns []*model.ColumnInfo Ranges []ranger.IntColumnRange TableAsName *model.CIStr // contains filtered or unexported fields }
PhysicalMemTable reads memory table.
func (*PhysicalMemTable) ResolveIndices ¶
func (p *PhysicalMemTable) ResolveIndices()
func (*PhysicalMemTable) Schema ¶
func (s *PhysicalMemTable) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalMemTable) SetSchema ¶
func (s *PhysicalMemTable) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type PhysicalMergeJoin ¶
type PhysicalMergeJoin struct { JoinType JoinType EqualConditions []*expression.ScalarFunction LeftConditions []expression.Expression RightConditions []expression.Expression OtherConditions []expression.Expression DefaultValues []types.Datum // contains filtered or unexported fields }
PhysicalMergeJoin represents merge join for inner/ outer join.
func (*PhysicalMergeJoin) ExplainInfo ¶
func (p *PhysicalMergeJoin) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalMergeJoin) ResolveIndices ¶
func (p *PhysicalMergeJoin) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalMergeJoin) Schema ¶
func (s *PhysicalMergeJoin) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalMergeJoin) SetSchema ¶
func (s *PhysicalMergeJoin) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type PhysicalPlan ¶
type PhysicalPlan interface { Plan // ToPB converts physical plan to tipb executor. ToPB(ctx sessionctx.Context) (*tipb.Executor, error) // ExplainInfo returns operator information to be explained. ExplainInfo() string // StatsInfo will return the statsInfo for this plan. StatsInfo() *statsInfo // Get all the children. Children() []PhysicalPlan // SetChildren sets the children for the plan. SetChildren(...PhysicalPlan) // ResolveIndices resolves the indices for columns. After doing this, the columns can evaluate the rows by their indices. ResolveIndices() // contains filtered or unexported methods }
PhysicalPlan is a tree of the physical operators.
type PhysicalProjection ¶
type PhysicalProjection struct { Exprs []expression.Expression CalculateNoDelay bool // contains filtered or unexported fields }
PhysicalProjection is the physical operator of projection.
func (*PhysicalProjection) ExplainInfo ¶
func (p *PhysicalProjection) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalProjection) ResolveIndices ¶
func (p *PhysicalProjection) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalProjection) Schema ¶
func (s *PhysicalProjection) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalProjection) SetSchema ¶
func (s *PhysicalProjection) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type PhysicalSelection ¶
type PhysicalSelection struct { Conditions []expression.Expression // contains filtered or unexported fields }
PhysicalSelection represents a filter.
func (*PhysicalSelection) Children ¶
func (p *PhysicalSelection) Children() []PhysicalPlan
Children implements PhysicalPlan Children interface.
func (*PhysicalSelection) ExplainInfo ¶
func (p *PhysicalSelection) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalSelection) ResolveIndices ¶
func (p *PhysicalSelection) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalSelection) Schema ¶
func (p *PhysicalSelection) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*PhysicalSelection) SetChildren ¶
func (p *PhysicalSelection) SetChildren(children ...PhysicalPlan)
SetChildren implements PhysicalPlan SetChildren interface.
func (*PhysicalSelection) ToPB ¶
func (p *PhysicalSelection) ToPB(ctx sessionctx.Context) (*tipb.Executor, error)
ToPB implements PhysicalPlan ToPB interface.
type PhysicalSort ¶
type PhysicalSort struct { ByItems []*ByItems // contains filtered or unexported fields }
PhysicalSort is the physical operator of sort, which implements a memory sort.
func (*PhysicalSort) Children ¶
func (p *PhysicalSort) Children() []PhysicalPlan
Children implements PhysicalPlan Children interface.
func (*PhysicalSort) ExplainInfo ¶
func (p *PhysicalSort) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalSort) ResolveIndices ¶
func (p *PhysicalSort) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalSort) Schema ¶
func (p *PhysicalSort) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*PhysicalSort) SetChildren ¶
func (p *PhysicalSort) SetChildren(children ...PhysicalPlan)
SetChildren implements PhysicalPlan SetChildren interface.
type PhysicalStreamAgg ¶
type PhysicalStreamAgg struct {
// contains filtered or unexported fields
}
PhysicalStreamAgg is stream operator of aggregate.
func (*PhysicalStreamAgg) ExplainInfo ¶
func (p *PhysicalStreamAgg) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalStreamAgg) ResolveIndices ¶
func (p *PhysicalStreamAgg) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalStreamAgg) ToPB ¶
func (p *PhysicalStreamAgg) ToPB(ctx sessionctx.Context) (*tipb.Executor, error)
ToPB implements PhysicalPlan ToPB interface.
type PhysicalTableDual ¶
type PhysicalTableDual struct { RowCount int // contains filtered or unexported fields }
PhysicalTableDual is the physical operator of dual.
func (*PhysicalTableDual) ExplainInfo ¶
func (p *PhysicalTableDual) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalTableDual) ResolveIndices ¶
func (p *PhysicalTableDual) ResolveIndices()
func (*PhysicalTableDual) Schema ¶
func (s *PhysicalTableDual) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalTableDual) SetSchema ¶
func (s *PhysicalTableDual) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type PhysicalTableReader ¶
type PhysicalTableReader struct { // TablePlans flats the tablePlan to construct executor pb. TablePlans []PhysicalPlan // contains filtered or unexported fields }
PhysicalTableReader is the table reader in tidb.
func (*PhysicalTableReader) ExplainInfo ¶
func (p *PhysicalTableReader) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalTableReader) ResolveIndices ¶
func (p *PhysicalTableReader) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalTableReader) Schema ¶
func (s *PhysicalTableReader) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalTableReader) SetSchema ¶
func (s *PhysicalTableReader) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type PhysicalTableScan ¶
type PhysicalTableScan struct { // AccessCondition is used to calculate range. AccessCondition []expression.Expression Table *model.TableInfo Columns []*model.ColumnInfo DBName model.CIStr Desc bool Ranges []*ranger.NewRange TableAsName *model.CIStr // KeepOrder is true, if sort data by scanning pkcol, KeepOrder bool // Hist is the histogram when the query was issued. // It is used for query feedback. Hist *statistics.Histogram // contains filtered or unexported fields }
PhysicalTableScan represents a table scan plan.
func (*PhysicalTableScan) ExplainInfo ¶
func (p *PhysicalTableScan) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalTableScan) ResolveIndices ¶
func (p *PhysicalTableScan) ResolveIndices()
func (*PhysicalTableScan) Schema ¶
func (s *PhysicalTableScan) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*PhysicalTableScan) SetSchema ¶
func (s *PhysicalTableScan) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
func (*PhysicalTableScan) ToPB ¶
func (p *PhysicalTableScan) ToPB(ctx sessionctx.Context) (*tipb.Executor, error)
ToPB implements PhysicalPlan ToPB interface.
type PhysicalTopN ¶
type PhysicalTopN struct { ByItems []*ByItems Offset uint64 Count uint64 // contains filtered or unexported fields }
PhysicalTopN is the physical operator of topN.
func (*PhysicalTopN) Children ¶
func (p *PhysicalTopN) Children() []PhysicalPlan
Children implements PhysicalPlan Children interface.
func (*PhysicalTopN) ExplainInfo ¶
func (p *PhysicalTopN) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalTopN) ResolveIndices ¶
func (p *PhysicalTopN) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalTopN) Schema ¶
func (p *PhysicalTopN) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*PhysicalTopN) SetChildren ¶
func (p *PhysicalTopN) SetChildren(children ...PhysicalPlan)
SetChildren implements PhysicalPlan SetChildren interface.
func (*PhysicalTopN) ToPB ¶
func (p *PhysicalTopN) ToPB(ctx sessionctx.Context) (*tipb.Executor, error)
ToPB implements PhysicalPlan ToPB interface.
type PhysicalUnionAll ¶
type PhysicalUnionAll struct {
// contains filtered or unexported fields
}
PhysicalUnionAll is the physical operator of UnionAll.
func (*PhysicalUnionAll) Children ¶
func (p *PhysicalUnionAll) Children() []PhysicalPlan
Children implements PhysicalPlan Children interface.
func (*PhysicalUnionAll) ExplainInfo ¶
func (p *PhysicalUnionAll) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalUnionAll) ResolveIndices ¶
func (p *PhysicalUnionAll) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalUnionAll) Schema ¶
func (p *PhysicalUnionAll) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*PhysicalUnionAll) SetChildren ¶
func (p *PhysicalUnionAll) SetChildren(children ...PhysicalPlan)
SetChildren implements PhysicalPlan SetChildren interface.
type PhysicalUnionScan ¶
type PhysicalUnionScan struct { Conditions []expression.Expression // contains filtered or unexported fields }
PhysicalUnionScan represents a union scan operator.
func (*PhysicalUnionScan) Children ¶
func (p *PhysicalUnionScan) Children() []PhysicalPlan
Children implements PhysicalPlan Children interface.
func (*PhysicalUnionScan) ExplainInfo ¶
func (p *PhysicalUnionScan) ExplainInfo() string
ExplainInfo implements PhysicalPlan interface.
func (*PhysicalUnionScan) ResolveIndices ¶
func (p *PhysicalUnionScan) ResolveIndices()
ResolveIndices implements Plan interface.
func (*PhysicalUnionScan) Schema ¶
func (p *PhysicalUnionScan) Schema() *expression.Schema
Schema implements Plan Schema interface.
func (*PhysicalUnionScan) SetChildren ¶
func (p *PhysicalUnionScan) SetChildren(children ...PhysicalPlan)
SetChildren implements PhysicalPlan SetChildren interface.
type Plan ¶
type Plan interface { // Get the schema. Schema() *expression.Schema // Get the ID. ID() int // Get the ID in explain statement ExplainID() string // contains filtered or unexported methods }
Plan is the description of an execution flow. It is created from ast.Node first, then optimized by the optimizer, finally used by the executor to create a Cursor which executes the statement.
func BuildLogicalPlan ¶
func BuildLogicalPlan(ctx sessionctx.Context, node ast.Node, is infoschema.InfoSchema) (Plan, error)
BuildLogicalPlan used to build logical plan from ast.Node.
func Optimize ¶
func Optimize(ctx sessionctx.Context, node ast.Node, is infoschema.InfoSchema) (Plan, error)
Optimize does optimization and creates a Plan. The node must be prepared first.
type Prepare ¶
Prepare represents prepare plan.
func (*Prepare) Schema ¶
func (s *Prepare) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*Prepare) SetSchema ¶
func (s *Prepare) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type Prepared ¶
type Prepared struct { Stmt ast.StmtNode Params []*ast.ParamMarkerExpr SchemaVersion int64 UseCache bool }
Prepared represents a prepared statement.
type RecoverIndex ¶
type RecoverIndex struct { Table *ast.TableName IndexName string // contains filtered or unexported fields }
RecoverIndex is used for backfilling corrupted index data.
func (*RecoverIndex) Schema ¶
func (s *RecoverIndex) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*RecoverIndex) SetSchema ¶
func (s *RecoverIndex) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type SQLCacheValue ¶
SQLCacheValue stores the cached Statement and StmtNode.
func NewSQLCacheValue ¶
func NewSQLCacheValue(ast ast.StmtNode, plan Plan, expensive bool) *SQLCacheValue
NewSQLCacheValue creates a SQLCacheValue.
type Set ¶
type Set struct { VarAssigns []*expression.VarAssignment // contains filtered or unexported fields }
Set represents a plan for set stmt.
func (*Set) Schema ¶
func (s *Set) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*Set) SetSchema ¶
func (s *Set) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type Show ¶
type Show struct { Tp ast.ShowStmtType // Databases/Tables/Columns/.... DBName string Table *ast.TableName // Used for showing columns. Column *ast.ColumnName // Used for `desc table column`. Flag int // Some flag parsed from sql, such as FULL. Full bool User *auth.UserIdentity // Used for show grants. Conditions []expression.Expression // Used by show variables GlobalScope bool // contains filtered or unexported fields }
Show represents a show plan.
func (*Show) ResolveIndices ¶
func (p *Show) ResolveIndices()
ResolveIndices implements Plan interface.
func (*Show) Schema ¶
func (s *Show) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*Show) SetSchema ¶
func (s *Show) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type ShowDDL ¶
type ShowDDL struct {
// contains filtered or unexported fields
}
ShowDDL is for showing DDL information.
func (*ShowDDL) Schema ¶
func (s *ShowDDL) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*ShowDDL) SetSchema ¶
func (s *ShowDDL) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type ShowDDLJobQueries ¶
type ShowDDLJobQueries struct { JobIDs []int64 // contains filtered or unexported fields }
ShowDDLJobQueries is for showing DDL job queries sql.
func (*ShowDDLJobQueries) Schema ¶
func (s *ShowDDLJobQueries) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*ShowDDLJobQueries) SetSchema ¶
func (s *ShowDDLJobQueries) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type ShowDDLJobs ¶
type ShowDDLJobs struct {
// contains filtered or unexported fields
}
ShowDDLJobs is for showing DDL job list.
func (*ShowDDLJobs) Schema ¶
func (s *ShowDDLJobs) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*ShowDDLJobs) SetSchema ¶
func (s *ShowDDLJobs) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type Simple ¶
Simple represents a simple statement plan which doesn't need any optimization.
func (*Simple) Schema ¶
func (s *Simple) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*Simple) SetSchema ¶
func (s *Simple) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
type Update ¶
type Update struct { OrderedList []*expression.Assignment IgnoreErr bool SelectPlan PhysicalPlan // contains filtered or unexported fields }
Update represents Update plan.
func (*Update) ResolveIndices ¶
func (p *Update) ResolveIndices()
ResolveIndices implements Plan interface.
func (*Update) Schema ¶
func (s *Update) Schema() *expression.Schema
Schema implements the Plan.Schema interface.
func (*Update) SetSchema ¶
func (s *Update) SetSchema(schema *expression.Schema)
SetSchema implements the Plan.SetSchema interface.
Source Files ¶
- aggregation_push_down.go
- build_key_info.go
- cache.go
- cacheable_checker.go
- column_pruning.go
- common_plans.go
- decorrelate.go
- eliminate_projection.go
- errors.go
- explain.go
- expression_rewriter.go
- gen_physical_plans.go
- initialize.go
- join_reorder.go
- logical_plan_builder.go
- logical_plans.go
- max_min_eliminate.go
- optimizer.go
- physical_plan_builder.go
- physical_plans.go
- plan.go
- plan_to_pb.go
- planbuilder.go
- predicate_push_down.go
- preprocess.go
- property_cols_prune.go
- resolve_indices.go
- stats.go
- stringer.go
- task.go
- topn_push_down.go
- util.go