Documentation ¶
Index ¶
- Constants
- Variables
- func BuildHistAndTopN(ctx sessionctx.Context, numBuckets, numTopN int, id int64, ...) (*Histogram, *TopN, error)
- func CMSketchAndTopNFromProto(protoSketch *tipb.CMSketch) (*CMSketch, *TopN)
- func CMSketchToProto(c *CMSketch, topn *TopN) *tipb.CMSketch
- func CheckAnalyzeVerOnTable(tbl *Table, version *int) bool
- func CheckEmptyTopNs(topNs []*TopN) bool
- func ColAndIdxExistenceMapIsEqual(m1, m2 *ColAndIdxExistenceMap) bool
- func ColumnStatsIsInvalid(colStats *Column, sctx planctx.PlanContext, histColl *HistColl, cid int64) (res bool)
- func DebugTraceBuckets(s planctx.PlanContext, hg *Histogram, bucketIdxs []int)
- func DecodeCMSketchAndTopN(data []byte, topNRows []chunk.Row) (*CMSketch, *TopN, error)
- func DeepSlice[T any](s []T) []T
- func EncodeCMSketchWithoutTopN(c *CMSketch) ([]byte, error)
- func EncodeFMSketch(c *FMSketch) ([]byte, error)
- func EnumRangeValues(low, high types.Datum, lowExclude, highExclude bool) []types.Datum
- func FMSketchToProto(s *FMSketch) *tipb.FMSketch
- func GetIndexPrefixLens(data []byte, numCols int) (prefixLens []int, err error)
- func GetMergedTopNFromSortedSlice(sorted []TopNMeta, n uint32) (*TopN, []TopNMeta)
- func HistogramEqual(a, b *Histogram, ignoreID bool) bool
- func HistogramToProto(hg *Histogram) *tipb.Histogram
- func IndexStatsIsInvalid(sctx planctx.PlanContext, idxStats *Index, coll *HistColl, cid int64) (res bool)
- func MergeTopN(topNs []*TopN, n uint32) (*TopN, []TopNMeta)
- func NewCMSketchAndTopN(d, w int32, sample [][]byte, numTop uint32, rowCount uint64) (*CMSketch, *TopN, uint64, uint64)
- func QueryValue(sctx planctx.PlanContext, c *CMSketch, t *TopN, val types.Datum) (uint64, error)
- func RowSamplesToProto(samples WeightedRowSampleHeap) []*tipb.RowSample
- func RowToDatums(row chunk.Row, fields []*resolve.ResultField) []types.Datum
- func SampleCollectorToProto(c *SampleCollector) *tipb.SampleCollector
- func SortTopnMeta(topnMetas []TopNMeta)
- func TopnMetaCompare(i, j TopNMeta) int
- func ValueToString(vars *variable.SessionVars, value *types.Datum, idxCols int, ...) (string, error)
- type AnalyzeJob
- type AnalyzeProgress
- type AnalyzeResult
- type AnalyzeResults
- type AnalyzeTableID
- type BernoulliRowSampleCollector
- func (s *BernoulliRowSampleCollector) Base() *baseCollector
- func (s *BernoulliRowSampleCollector) DestroyAndPutToPool()
- func (s BernoulliRowSampleCollector) FromProto(pbCollector *tipb.RowSampleCollector, memTracker *memory.Tracker)
- func (s *BernoulliRowSampleCollector) MergeCollector(subCollector RowSampleCollector)
- func (s BernoulliRowSampleCollector) ToProto() *tipb.RowSampleCollector
- type Bucket
- type CMSketch
- func (c *CMSketch) CalcDefaultValForAnalyze(ndv uint64)
- func (c *CMSketch) Copy() *CMSketch
- func (c *CMSketch) Equal(rc *CMSketch) bool
- func (c *CMSketch) GetWidthAndDepth() (width, depth int32)
- func (c *CMSketch) InsertBytes(bytes []byte)
- func (c *CMSketch) InsertBytesByCount(bytes []byte, count uint64)
- func (c *CMSketch) MemoryUsage() (sum int64)
- func (c *CMSketch) MergeCMSketch(rc *CMSketch) error
- func (c *CMSketch) QueryBytes(d []byte) uint64
- func (c *CMSketch) SubValue(h1, h2 uint64, count uint64)
- func (c *CMSketch) TotalCount() uint64
- type CacheItemMemoryUsage
- type ColAndIdxExistenceMap
- func (m *ColAndIdxExistenceMap) Checked() bool
- func (m *ColAndIdxExistenceMap) Clone() *ColAndIdxExistenceMap
- func (m *ColAndIdxExistenceMap) ColNum() int
- func (m *ColAndIdxExistenceMap) DeleteColAnalyzed(id int64)
- func (m *ColAndIdxExistenceMap) DeleteIdxAnalyzed(id int64)
- func (m *ColAndIdxExistenceMap) Has(id int64, isIndex bool) bool
- func (m *ColAndIdxExistenceMap) HasAnalyzed(id int64, isIndex bool) bool
- func (m *ColAndIdxExistenceMap) InsertCol(id int64, analyzed bool)
- func (m *ColAndIdxExistenceMap) InsertIndex(id int64, analyzed bool)
- func (m *ColAndIdxExistenceMap) IsEmpty() bool
- func (m *ColAndIdxExistenceMap) SetChecked()
- type Column
- func (c *Column) Copy() *Column
- func (c *Column) DropUnnecessaryData()
- func (c *Column) GetEvictedStatus() int
- func (c *Column) GetIncreaseFactor(realtimeRowCount int64) float64
- func (c *Column) GetStatsVer() int64
- func (c *Column) IsAllEvicted() bool
- func (c *Column) IsAnalyzed() bool
- func (c *Column) IsCMSExist() bool
- func (c *Column) IsStatsInitialized() bool
- func (c *Column) ItemID() int64
- func (c *Column) MemoryUsage() CacheItemMemoryUsage
- func (c *Column) NotNullCount() float64
- func (c *Column) StatsAvailable() bool
- func (c *Column) String() string
- func (c *Column) TotalRowCount() float64
- type ColumnMemUsage
- type DatumMapCache
- type ExtendedStatsColl
- type ExtendedStatsItem
- type FMSketch
- func (s *FMSketch) Copy() *FMSketch
- func (s *FMSketch) DestroyAndPutToPool()
- func (s *FMSketch) InsertRowValue(sc *stmtctx.StatementContext, values []types.Datum) error
- func (s *FMSketch) InsertValue(sc *stmtctx.StatementContext, value types.Datum) error
- func (s *FMSketch) MemoryUsage() (sum int64)
- func (s *FMSketch) MergeFMSketch(rs *FMSketch)
- func (s *FMSketch) NDV() int64
- type HistColl
- func (coll *HistColl) CalcPreScalar()
- func (coll *HistColl) ColNum() int
- func (coll *HistColl) DelCol(id int64)
- func (coll *HistColl) DelIdx(id int64)
- func (coll *HistColl) DropEvicted()
- func (coll *HistColl) ForEachColumnImmutable(f func(int64, *Column) bool)
- func (coll *HistColl) ForEachIndexImmutable(f func(int64, *Index) bool)
- func (coll *HistColl) GenerateHistCollFromColumnInfo(tblInfo *model.TableInfo, columns []*expression.Column) *HistColl
- func (coll *HistColl) GetAnalyzeRowCount() float64
- func (coll *HistColl) GetCol(id int64) *Column
- func (coll *HistColl) GetColSlice() []*Column
- func (coll *HistColl) GetIdx(id int64) *Index
- func (coll *HistColl) GetIdxSlice() []*Index
- func (coll *HistColl) GetScaledRealtimeAndModifyCnt(idxStats *Index) (realtimeCnt, modifyCnt int64)
- func (coll *HistColl) ID2UniqueID(columns []*expression.Column) *HistColl
- func (coll *HistColl) IdxNum() int
- func (coll *HistColl) SetAllIndexFullLoadForBootstrap()
- func (coll *HistColl) SetCol(id int64, col *Column)
- func (coll *HistColl) SetIdx(id int64, idx *Index)
- func (coll *HistColl) StableOrderColSlice() []*Column
- func (coll *HistColl) StableOrderIdxSlice() []*Index
- type Histogram
- func BuildColumn(ctx sessionctx.Context, numBuckets, id int64, collector *SampleCollector, ...) (*Histogram, error)
- func BuildColumnHist(ctx sessionctx.Context, numBuckets, id int64, collector *SampleCollector, ...) (*Histogram, error)
- func HistogramFromProto(protoHg *tipb.Histogram) *Histogram
- func MergeHistograms(sc *stmtctx.StatementContext, lh *Histogram, rh *Histogram, bucketSize int, ...) (*Histogram, error)
- func MergePartitionHist2GlobalHist(sc *stmtctx.StatementContext, hists []*Histogram, popedTopN []TopNMeta, ...) (*Histogram, error)
- func NewHistogram(id, ndv, nullCount int64, version uint64, tp *types.FieldType, bucketSize int, ...) *Histogram
- func (hg *Histogram) AppendBucket(lower *types.Datum, upper *types.Datum, count, repeat int64)
- func (hg *Histogram) AppendBucketWithNDV(lower *types.Datum, upper *types.Datum, count, repeat, ndv int64)
- func (hg *Histogram) AvgCountPerNotNullValue(totalCount int64) float64
- func (hg *Histogram) BetweenRowCount(sctx planctx.PlanContext, a, b types.Datum) float64
- func (hg *Histogram) BinarySearchRemoveVal(valCntPairs TopNMeta)
- func (hg *Histogram) BucketCount(idx int) int64
- func (hg *Histogram) BucketToString(bktID, idxCols int) string
- func (hg *Histogram) ConvertTo(tctx types.Context, tp *types.FieldType) (*Histogram, error)
- func (hg *Histogram) Copy() *Histogram
- func (hg *Histogram) DecodeTo(tp *types.FieldType, timeZone *time.Location) error
- func (hg *Histogram) DestroyAndPutToPool()
- func (hg *Histogram) EqualRowCount(sctx planctx.PlanContext, value types.Datum, hasBucketNDV bool) (count float64, matched bool)
- func (hg *Histogram) ExtractTopN(cms *CMSketch, topN *TopN, numCols int, numTopN uint32) error
- func (hg *Histogram) GetIncreaseFactor(totalCount int64) float64
- func (hg *Histogram) GetLower(idx int) *types.Datum
- func (hg *Histogram) GetUpper(idx int) *types.Datum
- func (hg *Histogram) GreaterRowCount(value types.Datum) float64
- func (hg *Histogram) IsIndexHist() bool
- func (hg *Histogram) Len() int
- func (hg *Histogram) LessRowCount(sctx planctx.PlanContext, value types.Datum) float64
- func (hg *Histogram) LessRowCountWithBktIdx(sctx planctx.PlanContext, value types.Datum) (result float64, bucketIdx int)
- func (hg *Histogram) LocateBucket(sctx planctx.PlanContext, value types.Datum) (exceed bool, bucketIdx int, inBucket, matchLastValue bool)
- func (hg *Histogram) LowerToDatum(idx int, d *types.Datum)
- func (hg *Histogram) MemoryUsage() (sum int64)
- func (hg *Histogram) NotNullCount() float64
- func (hg *Histogram) OutOfRange(val types.Datum) bool
- func (hg *Histogram) OutOfRangeRowCount(sctx planctx.PlanContext, lDatum, rDatum *types.Datum, ...) (result float64)
- func (hg *Histogram) PreCalculateScalar()
- func (hg *Histogram) RemoveVals(valCntPairs []TopNMeta)
- func (hg *Histogram) SplitRange(sc *stmtctx.StatementContext, oldRanges []*ranger.Range, encoded bool) ([]*ranger.Range, bool)
- func (hg *Histogram) StandardizeForV2AnalyzeIndex()
- func (hg *Histogram) ToString(idxCols int) string
- func (hg *Histogram) TotalRowCount() float64
- func (hg *Histogram) TruncateHistogram(numBkt int) *Histogram
- func (hg *Histogram) UpperToDatum(idx int, d *types.Datum)
- type Index
- func (idx *Index) Copy() *Index
- func (idx *Index) DropUnnecessaryData()
- func (idx *Index) EvictAllStats()
- func (idx *Index) GetEvictedStatus() int
- func (idx *Index) GetIncreaseFactor(realtimeRowCount int64) float64
- func (idx *Index) GetStatsVer() int64
- func (idx *Index) IsAllEvicted() bool
- func (idx *Index) IsAnalyzed() bool
- func (idx *Index) IsCMSExist() bool
- func (idx *Index) IsEvicted() bool
- func (idx *Index) ItemID() int64
- func (idx *Index) MemoryUsage() CacheItemMemoryUsage
- func (idx *Index) QueryBytes(sctx planctx.PlanContext, d []byte) (result uint64)
- func (idx *Index) String() string
- func (idx *Index) TotalRowCount() float64
- type IndexMemUsage
- type JobType
- type ReservoirRowSampleCollector
- func (s *ReservoirRowSampleCollector) Base() *baseCollector
- func (s *ReservoirRowSampleCollector) DestroyAndPutToPool()
- func (s ReservoirRowSampleCollector) FromProto(pbCollector *tipb.RowSampleCollector, memTracker *memory.Tracker)
- func (s *ReservoirRowSampleCollector) MergeCollector(subCollector RowSampleCollector)
- func (s ReservoirRowSampleCollector) ToProto() *tipb.RowSampleCollector
- type ReservoirRowSampleItem
- type RowSampleBuilder
- type RowSampleCollector
- type SampleBuilder
- type SampleCollector
- type SampleItem
- type SortedBuilder
- type StatsLoadedStatus
- func (s *StatsLoadedStatus) Copy() StatsLoadedStatus
- func (s StatsLoadedStatus) IsAllEvicted() bool
- func (s StatsLoadedStatus) IsEssentialStatsLoaded() bool
- func (s StatsLoadedStatus) IsFullLoad() bool
- func (s StatsLoadedStatus) IsLoadNeeded() bool
- func (s StatsLoadedStatus) IsStatsInitialized() bool
- func (s StatsLoadedStatus) StatusToString() string
- type StatsTblTraceInfo
- type Table
- func (t *Table) ColumnByName(colName string) *Column
- func (t *Table) ColumnIsLoadNeeded(id int64, fullLoad bool) (*Column, bool, bool)
- func (t *Table) Copy() *Table
- func (t *Table) GetStatsHealthy() (int64, bool)
- func (t *Table) GetStatsInfo(id int64, isIndex bool, needCopy bool) (*Histogram, *CMSketch, *TopN, *FMSketch, bool)
- func (t *Table) IndexIsLoadNeeded(id int64) (*Index, bool)
- func (t *Table) IndexStartWithColumn(colName string) *Index
- func (t *Table) IsAnalyzed() bool
- func (t *Table) IsEligibleForAnalysis() bool
- func (t *Table) IsInitialized() bool
- func (t *Table) IsOutdated() bool
- func (t *Table) MemoryUsage() *TableMemoryUsage
- func (t *Table) ReleaseAndPutToPool()
- func (t *Table) ShallowCopy() *Table
- func (t *Table) String() string
- type TableCacheItem
- type TableMemoryUsage
- type TopN
- func (c *TopN) AppendTopN(data []byte, count uint64)
- func (c *TopN) BetweenCount(sctx planctx.PlanContext, l, r []byte) (result uint64)
- func (c *TopN) Copy() *TopN
- func (c *TopN) DecodedString(ctx sessionctx.Context, colTypes []byte) (string, error)
- func (c *TopN) Equal(cc *TopN) bool
- func (c *TopN) FindTopN(d []byte) int
- func (c *TopN) LowerBound(d []byte) (idx int, match bool)
- func (c *TopN) MemoryUsage() (sum int64)
- func (c *TopN) Num() int
- func (c *TopN) QueryTopN(sctx planctx.PlanContext, d []byte) (result uint64, found bool)
- func (c *TopN) RemoveVal(val []byte)
- func (c *TopN) Scale(scaleFactor float64)
- func (c *TopN) Sort()
- func (c *TopN) String() string
- func (c *TopN) TotalCount() uint64
- type TopNMeta
- type WeightedRowSampleHeap
Constants ¶
const ( // AnalyzePending means the analyze job is pending AnalyzePending = "pending" // AnalyzeRunning means the analyze job is running AnalyzeRunning = "running" // AnalyzeFinished means the analyze job has finished AnalyzeFinished = "finished" // AnalyzeFailed means the analyze job has failed AnalyzeFailed = "failed" )
const ( // Version0 is the state that no statistics is actually collected, only the meta info.(the total count and the average col size) Version0 = 0 // Version1 maintains the statistics in the following way. // Column stats: CM Sketch is built in TiKV using full data. Histogram is built from samples. TopN is extracted from CM Sketch. // TopN + CM Sketch represent all data. Histogram also represents all data. // Index stats: CM Sketch and Histogram is built in TiKV using full data. TopN is extracted from histogram. Then values covered by TopN is removed from CM Sketch. // TopN + CM Sketch represent all data. Histogram also represents all data. // Int PK column stats is always Version1 because it only has histogram built from full data. // Fast analyze is always Version1 currently. Version1 = 1 // Version2 maintains the statistics in the following way. // Column stats: CM Sketch is not used. TopN and Histogram are built from samples. TopN + Histogram represent all data.(The values covered by TopN is removed from Histogram.) // Index stats: CM SKetch is not used. TopN and Histograms are built from samples. TopN + Histogram represent all data.(The values covered by TopN is removed from Histogram.) // Both Column and Index's NDVs are collected by full scan. Version2 = 2 )
constants for stats version. These const can be used for solving compatibility issue.
const ( // AllLoaded indicates all statistics are loaded AllLoaded = iota // AllEvicted indicates all statistics are evicted AllEvicted )
const ( // PseudoVersion means the pseudo statistics version is 0. PseudoVersion uint64 = 0 // PseudoRowCount export for other pkg to use. // When we haven't analyzed a table, we use pseudo statistics to estimate costs. // It has row count 10000, equal condition selects 1/1000 of total rows, less condition selects 1/3 of total rows, // between condition selects 1/40 of total rows. PseudoRowCount = 10000 )
const ( // ExtendedStatsInited is the status for extended stats which are just registered but have not been analyzed yet. ExtendedStatsInited uint8 = iota // ExtendedStatsAnalyzed is the status for extended stats which have been collected in analyze. ExtendedStatsAnalyzed // ExtendedStatsDeleted is the status for extended stats which were dropped. These "deleted" records would be removed from storage by GCStats(). ExtendedStatsDeleted )
const AnalyzeFlag = 1
AnalyzeFlag is set when the statistics comes from analyze.
const EmptyBucketSize = int64(unsafe.Sizeof(Bucket{}))
EmptyBucketSize is the size of empty bucket, 3*8=24 now.
const EmptyHistogramSize = int64(unsafe.Sizeof(Histogram{}))
EmptyHistogramSize is the size of empty histogram, about 112 = 8*6 for int64 & float64, 24*2 for arrays, 8*2 for references.
const EmptyReservoirSampleItemSize = int64(unsafe.Sizeof(ReservoirRowSampleItem{}))
EmptyReservoirSampleItemSize = (24 + 16 + 8) now.
const EmptySampleItemSize = int64(unsafe.Sizeof(SampleItem{}))
EmptySampleItemSize is the size of empty SampleItem, 96 = 72 (datum) + 8 (int) + 16.
const EmptyScalarSize = int64(unsafe.Sizeof(scalar{}))
EmptyScalarSize is the size of empty scalar.
const MaxSampleValueLength = mysql.MaxFieldVarCharLength / 2
MaxSampleValueLength defines the max length of the useful samples. If one sample value exceeds the max length, we drop it before building the stats.
const MaxSketchSize = 10000
MaxSketchSize is the maximum size of the hashset in the FM sketch. TODO: add this attribute to PB and persist it instead of using a fixed number(executor.maxSketchSize)
const NonPartitionTableID = -1
NonPartitionTableID is the partition id for non-partition table.
Variables ¶
var ( // GetRowCountByIndexRanges is a function type to get row count by index ranges. GetRowCountByIndexRanges func(sctx planctx.PlanContext, coll *HistColl, idxID int64, indexRanges []*ranger.Range) (result float64, err error) // GetRowCountByIntColumnRanges is a function type to get row count by int column ranges. GetRowCountByIntColumnRanges func(sctx planctx.PlanContext, coll *HistColl, colID int64, intRanges []*ranger.Range) (result float64, err error) // GetRowCountByColumnRanges is a function type to get row count by column ranges. GetRowCountByColumnRanges func(sctx planctx.PlanContext, coll *HistColl, colID int64, colRanges []*ranger.Range) (result float64, err error) )
var AutoAnalyzeMinCnt int64 = 1000
AutoAnalyzeMinCnt means if the count of table is less than this value, we don't need to do auto analyze. Exported for testing.
var ( // ErrQueryInterrupted indicates interrupted ErrQueryInterrupted = dbterror.ClassExecutor.NewStd(mysql.ErrQueryInterrupted) )
var PrepareCols4MVIndex func( tableInfo *model.TableInfo, mvIndex *model.IndexInfo, tblCols []*expression.Column, checkOnly1ArrayTypeCol bool, ) (idxCols []*expression.Column, ok bool)
PrepareCols4MVIndex helps to identify the columns of an MV index. We need this information for estimation. This logic is shared between the estimation logic and the access path generation logic. We'd like to put the mv index related functions together in the planner/core package. So we use this trick here to avoid the import cycle.
var RatioOfPseudoEstimate = atomic.NewFloat64(0.7)
RatioOfPseudoEstimate means if modifyCount / statsTblCount is greater than this ratio, we think the stats is invalid and use pseudo estimation.
var UTCWithAllowInvalidDateCtx = types.NewContext(types.DefaultStmtFlags|types.FlagIgnoreInvalidDateErr|types.FlagIgnoreZeroInDateErr, time.UTC, context.IgnoreWarn)
UTCWithAllowInvalidDateCtx is introduced for the following reason:
Invalid date values may be inserted into table under some relaxed sql mode. Those values may exist in statistics. Hence, when reading statistics, we should skip invalid date check. See #39336.
Functions ¶
func BuildHistAndTopN ¶
func BuildHistAndTopN( ctx sessionctx.Context, numBuckets, numTopN int, id int64, collector *SampleCollector, tp *types.FieldType, isColumn bool, memTracker *memory.Tracker, needExtStats bool, ) (*Histogram, *TopN, error)
BuildHistAndTopN build a histogram and TopN for a column or an index from samples.
func CMSketchAndTopNFromProto ¶
CMSketchAndTopNFromProto converts CMSketch and TopN from its protobuf representation.
func CMSketchToProto ¶
CMSketchToProto converts CMSketch to its protobuf representation.
func CheckAnalyzeVerOnTable ¶
CheckAnalyzeVerOnTable checks whether the given version is the one from the tbl. If not, it will return false and set the version to the tbl's. We use this check to make sure all the statistics of the table are in the same version.
func CheckEmptyTopNs ¶
CheckEmptyTopNs checks whether all TopNs are empty.
func ColAndIdxExistenceMapIsEqual ¶
func ColAndIdxExistenceMapIsEqual(m1, m2 *ColAndIdxExistenceMap) bool
ColAndIdxExistenceMapIsEqual is used in testing, checking whether the two are equal.
func ColumnStatsIsInvalid ¶
func ColumnStatsIsInvalid(colStats *Column, sctx planctx.PlanContext, histColl *HistColl, cid int64) (res bool)
ColumnStatsIsInvalid checks if this column is invalid. If this column has histogram but not loaded yet, then we mark it as need histogram.
func DebugTraceBuckets ¶
func DebugTraceBuckets(s planctx.PlanContext, hg *Histogram, bucketIdxs []int)
DebugTraceBuckets is used to trace the buckets used in the histogram.
func DecodeCMSketchAndTopN ¶
DecodeCMSketchAndTopN decode a CMSketch from the given byte slice.
func EncodeCMSketchWithoutTopN ¶
EncodeCMSketchWithoutTopN encodes the given CMSketch to byte slice. Note that it does not include the topN.
func EncodeFMSketch ¶
EncodeFMSketch encodes the given FMSketch to byte slice.
func EnumRangeValues ¶
EnumRangeValues generates enum values between low and high.
func FMSketchToProto ¶
func FMSketchToProto(s *FMSketch) *tipb.FMSketch
FMSketchToProto converts FMSketch to its protobuf representation.
func GetIndexPrefixLens ¶
GetIndexPrefixLens returns an array representing
func GetMergedTopNFromSortedSlice ¶
GetMergedTopNFromSortedSlice returns merged topn
func HistogramEqual ¶
HistogramEqual tests if two histograms are equal.
func HistogramToProto ¶
func HistogramToProto(hg *Histogram) *tipb.Histogram
HistogramToProto converts Histogram to its protobuf representation. Note that when this is used, the lower/upper bound in the bucket must be BytesDatum.
func IndexStatsIsInvalid ¶
func IndexStatsIsInvalid(sctx planctx.PlanContext, idxStats *Index, coll *HistColl, cid int64) (res bool)
IndexStatsIsInvalid checks whether the index has valid stats or not.
func MergeTopN ¶
MergeTopN is used to merge more TopN structures to generate a new TopN struct by the given size. The input parameters are multiple TopN structures to be merged and the size of the new TopN that will be generated. The output parameters are the newly generated TopN structure and the remaining numbers. Notice: The n can be 0. So n has no default value, we must explicitly specify this value.
func NewCMSketchAndTopN ¶
func NewCMSketchAndTopN(d, w int32, sample [][]byte, numTop uint32, rowCount uint64) (*CMSketch, *TopN, uint64, uint64)
NewCMSketchAndTopN returns a new CM sketch with TopN elements, the estimate NDV and the scale ratio.
func QueryValue ¶
QueryValue is used to query the count of specified value.
func RowSamplesToProto ¶
func RowSamplesToProto(samples WeightedRowSampleHeap) []*tipb.RowSample
RowSamplesToProto converts the samp slice to the pb struct.
func RowToDatums ¶
RowToDatums converts row to datum slice.
func SampleCollectorToProto ¶
func SampleCollectorToProto(c *SampleCollector) *tipb.SampleCollector
SampleCollectorToProto converts SampleCollector to its protobuf representation.
func ValueToString ¶
func ValueToString(vars *variable.SessionVars, value *types.Datum, idxCols int, idxColumnTypes []byte) (string, error)
ValueToString converts a possible encoded value to a formatted string. If the value is encoded, then idxCols equals to number of origin values, else idxCols is 0.
Types ¶
type AnalyzeJob ¶
type AnalyzeJob struct { StartTime time.Time EndTime time.Time ID *uint64 DBName string TableName string PartitionName string JobInfo string SampleRateReason string // why this sample-rate is chosen Progress AnalyzeProgress }
AnalyzeJob is used to represent the status of one analyze job.
type AnalyzeProgress ¶
type AnalyzeProgress struct {
// contains filtered or unexported fields
}
AnalyzeProgress represents the process of one analyze job.
func (*AnalyzeProgress) GetDeltaCount ¶
func (p *AnalyzeProgress) GetDeltaCount() int64
GetDeltaCount returns the delta count which hasn't been dumped into mysql.analyze_jobs.
func (*AnalyzeProgress) GetLastDumpTime ¶
func (p *AnalyzeProgress) GetLastDumpTime() time.Time
GetLastDumpTime returns the last dump time.
func (*AnalyzeProgress) SetLastDumpTime ¶
func (p *AnalyzeProgress) SetLastDumpTime(t time.Time)
SetLastDumpTime sets the last dump time.
func (*AnalyzeProgress) Update ¶
func (p *AnalyzeProgress) Update(rowCount int64) int64
Update adds rowCount to the delta count. If the updated delta count reaches threshold, it returns the delta count for dumping it into mysql.analyze_jobs and resets the delta count to 0. Otherwise, it returns 0.
type AnalyzeResult ¶
type AnalyzeResult struct { Hist []*Histogram Cms []*CMSketch TopNs []*TopN Fms []*FMSketch IsIndex int }
AnalyzeResult is used to represent analyze result.
func (*AnalyzeResult) DestroyAndPutToPool ¶
func (a *AnalyzeResult) DestroyAndPutToPool()
DestroyAndPutToPool destroys the result and put it to the pool.
type AnalyzeResults ¶
type AnalyzeResults struct { Err error ExtStats *ExtendedStatsColl Job *AnalyzeJob Ars []*AnalyzeResult TableID AnalyzeTableID Count int64 StatsVer int // Snapshot is the snapshot timestamp when we start the analysis job. Snapshot uint64 // BaseCount is the original count in mysql.stats_meta at the beginning of analyze. BaseCount int64 // BaseModifyCnt is the original modify_count in mysql.stats_meta at the beginning of analyze. BaseModifyCnt int64 // For multi-valued index analyze, there are some very different behaviors, so we add this field to indicate it. // // Analyze result of multi-valued index come from an independent v2 analyze index task (AnalyzeIndexExec), and it's // done by a scan on the index data and building stats. According to the original design rational of v2 stats, we // should use the same samples to build stats for all columns/indexes. We created an exceptional case here to avoid // loading the samples of JSON columns to tidb, which may cost too much memory, and we can't handle such case very // well now. // // As the definition of multi-valued index, the row count and NDV of this index may be higher than the table row // count. So we can't use this result to update the table-level row count. // The snapshot field is used by v2 analyze to check if there are concurrent analyze, so we also can't update it. // The multi-valued index analyze task is always together with another normal v2 analyze table task, which will // take care of those table-level fields. // In conclusion, when saving the analyze result for mv index, we need to store the index stats, as for the // table-level fields, we only need to update the version. // // The global index has only one key range, so an independent task is used to process it. // Global index needs to update only the version at the table-level fields, just like mv index. ForMVIndexOrGlobalIndex bool }
AnalyzeResults represents the analyze results of a task.
func (*AnalyzeResults) DestroyAndPutToPool ¶
func (a *AnalyzeResults) DestroyAndPutToPool()
DestroyAndPutToPool destroys the result and put it to the pool.
type AnalyzeTableID ¶
type AnalyzeTableID struct { TableID int64 // PartitionID is used for the construction of partition table statistics. It indicate the ID of the partition. // If the table is not the partition table, the PartitionID will be equal to NonPartitionTableID. PartitionID int64 }
AnalyzeTableID is hybrid table id used to analyze table.
func (*AnalyzeTableID) Equals ¶
func (h *AnalyzeTableID) Equals(t *AnalyzeTableID) bool
Equals indicates whether two table id is equal.
func (*AnalyzeTableID) GetStatisticsID ¶
func (h *AnalyzeTableID) GetStatisticsID() int64
GetStatisticsID is used to obtain the table ID to build statistics. If the 'PartitionID == NonPartitionTableID', we use the TableID to build the statistics for non-partition tables. Otherwise, we use the PartitionID to build the statistics of the partitions in the partition tables.
func (*AnalyzeTableID) IsPartitionTable ¶
func (h *AnalyzeTableID) IsPartitionTable() bool
IsPartitionTable indicates whether the table is partition table.
func (*AnalyzeTableID) String ¶
func (h *AnalyzeTableID) String() string
type BernoulliRowSampleCollector ¶
type BernoulliRowSampleCollector struct { SampleRate float64 // contains filtered or unexported fields }
BernoulliRowSampleCollector collects the samples from the source and organize the sample by row. It will maintain the following things:
Row samples. FM sketches(To calculate the NDV). Null counts. The data sizes. The number of rows.
It uses the bernoulli sampling to collect the data.
func NewBernoulliRowSampleCollector ¶
func NewBernoulliRowSampleCollector(sampleRate float64, totalLen int) *BernoulliRowSampleCollector
NewBernoulliRowSampleCollector creates the new collector by the given inputs.
func (*BernoulliRowSampleCollector) Base ¶
func (s *BernoulliRowSampleCollector) Base() *baseCollector
Base implements the interface RowSampleCollector.
func (*BernoulliRowSampleCollector) DestroyAndPutToPool ¶
func (s *BernoulliRowSampleCollector) DestroyAndPutToPool()
DestroyAndPutToPool implements the interface RowSampleCollector.
func (*BernoulliRowSampleCollector) MergeCollector ¶
func (s *BernoulliRowSampleCollector) MergeCollector(subCollector RowSampleCollector)
MergeCollector merges the collectors to a final one.
type Bucket ¶
type Bucket struct { // Count is the number of items till this bucket. Count int64 // Repeat is the number of times the upper-bound value of the bucket appears in the data. // For example, in the range [x, y], Repeat indicates how many times y appears. // It is used to estimate the row count of values equal to the upper bound of the bucket, similar to TopN. Repeat int64 // NDV is the number of distinct values in the bucket. NDV int64 }
Bucket store the bucket count and repeat.
type CMSketch ¶
type CMSketch struct {
// contains filtered or unexported fields
}
CMSketch is used to estimate point queries. Refer: https://en.wikipedia.org/wiki/Count-min_sketch
func DecodeCMSketch ¶
DecodeCMSketch encodes the given CMSketch to byte slice.
func (*CMSketch) CalcDefaultValForAnalyze ¶
CalcDefaultValForAnalyze calculate the default value for Analyze. The value of it is count / NDV in CMSketch. This means count and NDV are not include topN.
func (*CMSketch) GetWidthAndDepth ¶
GetWidthAndDepth returns the width and depth of CM Sketch.
func (*CMSketch) InsertBytes ¶
InsertBytes inserts the bytes value into the CM Sketch.
func (*CMSketch) InsertBytesByCount ¶
InsertBytesByCount adds the bytes value into the TopN (if value already in TopN) or CM Sketch by delta, this does not updates c.defaultValue.
func (*CMSketch) MemoryUsage ¶
MemoryUsage returns the total memory usage of a CMSketch. only calc the hashtable size(CMSketch.table) and the CMSketch.topN data are not tracked because size of CMSketch.topN take little influence We ignore the size of other metadata in CMSketch.
func (*CMSketch) MergeCMSketch ¶
MergeCMSketch merges two CM Sketch.
func (*CMSketch) QueryBytes ¶
QueryBytes is used to query the count of specified bytes.
func (*CMSketch) TotalCount ¶
TotalCount returns the total count in the sketch, it is only used for test.
type CacheItemMemoryUsage ¶
type CacheItemMemoryUsage interface { ItemID() int64 TotalMemoryUsage() int64 TrackingMemUsage() int64 HistMemUsage() int64 TopnMemUsage() int64 CMSMemUsage() int64 }
CacheItemMemoryUsage indicates the memory usage of TableCacheItem
type ColAndIdxExistenceMap ¶
type ColAndIdxExistenceMap struct {
// contains filtered or unexported fields
}
ColAndIdxExistenceMap is the meta map for statistics.Table. It can tell whether a column/index really has its statistics. So we won't send useless kv request when we do online stats loading. We use this map to decide the stats status of a column/index. So it should be fully initialized before we check whether a column/index is analyzed or not.
func NewColAndIndexExistenceMap ¶
func NewColAndIndexExistenceMap(colCap, idxCap int) *ColAndIdxExistenceMap
NewColAndIndexExistenceMap return a new object with the given capcity.
func NewColAndIndexExistenceMapWithoutSize ¶
func NewColAndIndexExistenceMapWithoutSize() *ColAndIdxExistenceMap
NewColAndIndexExistenceMapWithoutSize return a new object with default capacity.
func (*ColAndIdxExistenceMap) Checked ¶
func (m *ColAndIdxExistenceMap) Checked() bool
Checked returns whether the map has been checked.
func (*ColAndIdxExistenceMap) Clone ¶
func (m *ColAndIdxExistenceMap) Clone() *ColAndIdxExistenceMap
Clone deeply copies the map.
func (*ColAndIdxExistenceMap) ColNum ¶
func (m *ColAndIdxExistenceMap) ColNum() int
ColNum returns the number of columns in the map.
func (*ColAndIdxExistenceMap) DeleteColAnalyzed ¶
func (m *ColAndIdxExistenceMap) DeleteColAnalyzed(id int64)
DeleteColAnalyzed deletes the column with the given id.
func (*ColAndIdxExistenceMap) DeleteIdxAnalyzed ¶
func (m *ColAndIdxExistenceMap) DeleteIdxAnalyzed(id int64)
DeleteIdxAnalyzed deletes the index with the given id.
func (*ColAndIdxExistenceMap) Has ¶
func (m *ColAndIdxExistenceMap) Has(id int64, isIndex bool) bool
Has checks whether a column/index stats exists.
func (*ColAndIdxExistenceMap) HasAnalyzed ¶
func (m *ColAndIdxExistenceMap) HasAnalyzed(id int64, isIndex bool) bool
HasAnalyzed checks whether a column/index stats exists and it has stats. TODO: the map should only keep the analyzed cols. There's three possible status of column/index's statistics:
- We don't have this column/index.
- We have it, but it hasn't been analyzed yet.
- We have it and its statistics.
To figure out three status, we use HasAnalyzed's TRUE value to represents the status 3. The Has's FALSE to represents the status 1.
func (*ColAndIdxExistenceMap) InsertCol ¶
func (m *ColAndIdxExistenceMap) InsertCol(id int64, analyzed bool)
InsertCol inserts a column with its meta into the map.
func (*ColAndIdxExistenceMap) InsertIndex ¶
func (m *ColAndIdxExistenceMap) InsertIndex(id int64, analyzed bool)
InsertIndex inserts an index with its meta into the map.
func (*ColAndIdxExistenceMap) IsEmpty ¶
func (m *ColAndIdxExistenceMap) IsEmpty() bool
IsEmpty checks whether the map is empty.
func (*ColAndIdxExistenceMap) SetChecked ¶
func (m *ColAndIdxExistenceMap) SetChecked()
SetChecked set the map as checked.
type Column ¶
type Column struct { LastAnalyzePos types.Datum CMSketch *CMSketch TopN *TopN FMSketch *FMSketch Info *model.ColumnInfo Histogram // StatsLoadedStatus indicates the status of column statistics StatsLoadedStatus // PhysicalID is the physical table id, // or it could possibly be -1, which means "stats not available". // The -1 case could happen in a pseudo stats table, and in this case, this stats should not trigger stats loading. PhysicalID int64 Flag int64 StatsVer int64 // StatsVer is the version of the current stats, used to maintain compatibility IsHandle bool }
Column represents a column histogram.
func EmptyColumn ¶
func EmptyColumn(tid int64, pkIsHandle bool, colInfo *model.ColumnInfo) *Column
EmptyColumn creates an empty column object. It may be used for pseudo estimation or to stop loading unexisting stats.
func (*Column) DropUnnecessaryData ¶
func (c *Column) DropUnnecessaryData()
DropUnnecessaryData drops the unnecessary data for the column.
func (*Column) GetEvictedStatus ¶
GetEvictedStatus indicates the evicted status
func (*Column) GetIncreaseFactor ¶
GetIncreaseFactor get the increase factor to adjust the final estimated count when the table is modified.
func (*Column) GetStatsVer ¶
GetStatsVer indicates the stats version
func (*Column) IsAllEvicted ¶
IsAllEvicted indicates whether all stats evicted
func (*Column) IsAnalyzed ¶
IsAnalyzed indicates whether the column is analyzed. The set of IsAnalyzed columns is a subset of the set of StatsAvailable columns.
func (*Column) IsCMSExist ¶
IsCMSExist indicates whether CMSketch exists
func (*Column) IsStatsInitialized ¶
IsStatsInitialized indicates whether stats is initialized
func (*Column) MemoryUsage ¶
func (c *Column) MemoryUsage() CacheItemMemoryUsage
MemoryUsage returns the total memory usage of Histogram, CMSketch, FMSketch in Column. We ignore the size of other metadata in Column
func (*Column) NotNullCount ¶
NotNullCount returns the count of this column which is not null.
func (*Column) StatsAvailable ¶
StatsAvailable indicates whether the column stats are collected. Note:
- The function merely talks about whether the stats are collected, regardless of the stats loaded status.
- The function is used to decide StatsLoadedStatus.statsInitialized when reading the column stats from storage.
- There are two cases that StatsAvailable is true: a. IsAnalyzed is true. b. The column is newly-added/modified and its stats are generated according to the default value.
func (*Column) TotalRowCount ¶
TotalRowCount returns the total count of this column.
type ColumnMemUsage ¶
type ColumnMemUsage struct { ColumnID int64 HistogramMemUsage int64 CMSketchMemUsage int64 FMSketchMemUsage int64 TopNMemUsage int64 TotalMemUsage int64 }
ColumnMemUsage records column memory usage
func (*ColumnMemUsage) CMSMemUsage ¶
func (c *ColumnMemUsage) CMSMemUsage() int64
CMSMemUsage implements CacheItemMemoryUsage
func (*ColumnMemUsage) HistMemUsage ¶
func (c *ColumnMemUsage) HistMemUsage() int64
HistMemUsage implements CacheItemMemoryUsage
func (*ColumnMemUsage) ItemID ¶
func (c *ColumnMemUsage) ItemID() int64
ItemID implements CacheItemMemoryUsage
func (*ColumnMemUsage) TopnMemUsage ¶
func (c *ColumnMemUsage) TopnMemUsage() int64
TopnMemUsage implements CacheItemMemoryUsage
func (*ColumnMemUsage) TotalMemoryUsage ¶
func (c *ColumnMemUsage) TotalMemoryUsage() int64
TotalMemoryUsage implements CacheItemMemoryUsage
func (*ColumnMemUsage) TrackingMemUsage ¶
func (c *ColumnMemUsage) TrackingMemUsage() int64
TrackingMemUsage implements CacheItemMemoryUsage
type DatumMapCache ¶
type DatumMapCache struct {
// contains filtered or unexported fields
}
DatumMapCache is used to store the mapping from the string type to datum type. The datum is used to find the value in the histogram.
func NewDatumMapCache ¶
func NewDatumMapCache() *DatumMapCache
NewDatumMapCache creates a new DatumMapCache.
func (*DatumMapCache) Get ¶
func (d *DatumMapCache) Get(key hack.MutableString) (val types.Datum, ok bool)
Get gets the datum from the cache.
type ExtendedStatsColl ¶
type ExtendedStatsColl struct { Stats map[string]*ExtendedStatsItem LastUpdateVersion uint64 }
ExtendedStatsColl is a collection of cached items for mysql.stats_extended records.
func BuildExtendedStats ¶
func BuildExtendedStats(sctx sessionctx.Context, tableID int64, cols []*model.ColumnInfo, collectors []*SampleCollector) (*ExtendedStatsColl, error)
BuildExtendedStats build extended stats for column groups if needed based on the column samples.
func NewExtendedStatsColl ¶
func NewExtendedStatsColl() *ExtendedStatsColl
NewExtendedStatsColl allocate an ExtendedStatsColl struct.
type ExtendedStatsItem ¶
ExtendedStatsItem is the cached item of a mysql.stats_extended record.
type FMSketch ¶
type FMSketch struct {
// contains filtered or unexported fields
}
FMSketch (Flajolet-Martin Sketch) is a probabilistic data structure that estimates the count of unique elements in a stream. It employs a hash function to convert each element into a binary number and then counts the trailing zeroes in each hashed value. **This variant of the FM sketch uses a set to store unique hashed values and a binary mask to track the maximum number of trailing zeroes.** The estimated count of distinct values is calculated as 2^r * count, where 'r' is the maximum number of trailing zeroes observed and 'count' is the number of unique hashed values. The fundamental idea is that our hash function maps the input domain onto a logarithmic scale. This is achieved by hashing the input value and counting the number of trailing zeroes in the binary representation of the hash value. Each distinct value is mapped to 'i' with a probability of 2^-(i+1). For example, a value is mapped to 0 with a probability of 1/2, to 1 with a probability of 1/4, to 2 with a probability of 1/8, and so on. This is achieved by hashing the input value and counting the trailing zeroes in the hash value. If we have a set of 'n' distinct values, the count of distinct values with 'r' trailing zeroes is n / 2^r. Therefore, the estimated count of distinct values is 2^r * count = n. The level-by-level approach increases the accuracy of the estimation by ensuring a minimum count of distinct values at each level. This way, the final estimation is less likely to be skewed by outliers. For more details, refer to the following papers:
func DecodeFMSketch ¶
DecodeFMSketch decode a FMSketch from the given byte slice.
func FMSketchFromProto ¶
func FMSketchFromProto(protoSketch *tipb.FMSketch) *FMSketch
FMSketchFromProto converts FMSketch from its protobuf representation.
func (*FMSketch) DestroyAndPutToPool ¶
func (s *FMSketch) DestroyAndPutToPool()
DestroyAndPutToPool resets the FMSketch and puts it to the pool.
func (*FMSketch) InsertRowValue ¶
InsertRowValue inserts multi-column values to the sketch.
func (*FMSketch) InsertValue ¶
InsertValue inserts a value into the FM sketch.
func (*FMSketch) MemoryUsage ¶
MemoryUsage returns the total memory usage of a FMSketch.
func (*FMSketch) MergeFMSketch ¶
MergeFMSketch merges two FM Sketch.
type HistColl ¶
type HistColl struct { PhysicalID int64 // TODO: add AnalyzeCount here RealtimeCount int64 // RealtimeCount is the current table row count, maintained by applying stats delta based on AnalyzeCount. ModifyCount int64 // Total modify count in a table. // The version of the statistics, refer to Version0, Version1, Version2 and so on. StatsVer int // HavePhysicalID is true means this HistColl is from single table and have its ID's information. // The physical id is used when try to load column stats from storage. HavePhysicalID bool Pseudo bool CanNotTriggerLoad bool // Idx2ColUniqueIDs maps the index id to its column UniqueIDs. It's used to calculate the selectivity in planner. Idx2ColUniqueIDs map[int64][]int64 // ColUniqueID2IdxIDs maps the column UniqueID to a list index ids whose first column is it. // It's used to calculate the selectivity in planner. ColUniqueID2IdxIDs map[int64][]int64 // UniqueID2colInfoID maps the column UniqueID to its ID in the metadata. UniqueID2colInfoID map[int64]int64 // MVIdx2Columns maps the index id to its columns by expression.Column. // For normal index, the column id is enough, as we already have in Idx2ColUniqueIDs. But currently, mv index needs more // information to match the filter against the mv index columns, and we need this map to provide this information. MVIdx2Columns map[int64][]*expression.Column // contains filtered or unexported fields }
HistColl is a collection of histograms. It collects enough information for plan to calculate the selectivity.
func NewHistColl ¶
func NewHistColl(id int64, havePhysicalID bool, realtimeCnt, modifyCnt int64, colNum, idxNum int) *HistColl
NewHistColl creates a new HistColl.
func NewHistCollWithColsAndIdxs ¶
func NewHistCollWithColsAndIdxs(id int64, havePhysicalID bool, realtimeCnt, modifyCnt int64, cols map[int64]*Column, idxs map[int64]*Index) *HistColl
NewHistCollWithColsAndIdxs creates a new HistColl with given columns and indices.
func (*HistColl) CalcPreScalar ¶
func (coll *HistColl) CalcPreScalar()
CalcPreScalar calculates the pre-calculated scalar for all columns and indices.
func (*HistColl) DropEvicted ¶
func (coll *HistColl) DropEvicted()
DropEvicted will drop the unnecessary data for all columns and indices. It's triggerred by stats cache.
func (*HistColl) ForEachColumnImmutable ¶
ForEachColumnImmutable iterates all columns in the HistColl. The bool return value of f is used to control the iteration. If f returns true, the iteration will be stopped. Warning: Don't change the content when calling this function.
func (*HistColl) ForEachIndexImmutable ¶
ForEachIndexImmutable iterates all columns in the HistColl. The bool return value of f is used to control the iteration. If f returns true, the iteration will be stopped. WARNING: Don't change the content when calling this function.
func (*HistColl) GenerateHistCollFromColumnInfo ¶
func (coll *HistColl) GenerateHistCollFromColumnInfo(tblInfo *model.TableInfo, columns []*expression.Column) *HistColl
GenerateHistCollFromColumnInfo generates a new HistColl whose ColUniqueID2IdxIDs and Idx2ColUniqueIDs is built from the given parameter.
func (*HistColl) GetAnalyzeRowCount ¶
GetAnalyzeRowCount tries to get the row count of a column or an index if possible. This method is useful because this row count doesn't consider the modify count.
func (*HistColl) GetColSlice ¶
GetColSlice returns a slice of columns without order.
func (*HistColl) GetIdxSlice ¶
GetIdxSlice returns a slice of indices without order.
func (*HistColl) GetScaledRealtimeAndModifyCnt ¶
GetScaledRealtimeAndModifyCnt scale the RealtimeCount and ModifyCount for some special indexes where the total row count is different from the total row count of the table. Currently, only the mv index is this case. Because we will use the RealtimeCount and ModifyCount during the estimation for ranges on this index (like the upper bound for the out-of-range estimation logic and the IncreaseFactor logic), we can't directly use the RealtimeCount and ModifyCount of the table. Instead, we should scale them before using. For example, if the table analyze row count is 1000 and realtime row count is 1500, and the mv index total count is 5000, when calculating the IncreaseFactor, it should be 1500/1000 = 1.5 for normal columns/indexes, and we should use the same 1.5 for mv index. But obviously, use 1500/5000 would be wrong, the correct calculation should be 7500/5000 = 1.5. So we add this function to get this 7500.
func (*HistColl) ID2UniqueID ¶
func (coll *HistColl) ID2UniqueID(columns []*expression.Column) *HistColl
ID2UniqueID generates a new HistColl whose `Columns` is built from UniqueID of given columns.
func (*HistColl) SetAllIndexFullLoadForBootstrap ¶
func (coll *HistColl) SetAllIndexFullLoadForBootstrap()
SetAllIndexFullLoadForBootstrap sets all indices' stats loaded status to full load for bootstrap.
func (*HistColl) StableOrderColSlice ¶
StableOrderColSlice returns a slice of columns in stable order.
func (*HistColl) StableOrderIdxSlice ¶
StableOrderIdxSlice returns a slice of indices in stable order.
type Histogram ¶
type Histogram struct { Tp *types.FieldType // Histogram elements. // // A bucket bound is the smallest and greatest values stored in the bucket. The lower and upper bound // are stored in one column. // // A bucket count is the number of items stored in all previous buckets and the current bucket. // Bucket counts are always in increasing order. // // A bucket repeat is the number of repeats of the bucket value, it can be used to find popular values. Bounds *chunk.Chunk Buckets []Bucket // Used for estimating fraction of the interval [lower, upper] that lies within the [lower, value]. // For some types like `Int`, we do not build it because we can get them directly from `Bounds`. Scalars []scalar ID int64 // Column ID. NDV int64 // Number of distinct values. Note that It contains the NDV of the TopN which is excluded from histogram. NullCount int64 // Number of null values. // LastUpdateVersion is the version that this histogram updated last time. LastUpdateVersion uint64 // TotColSize is the total column size for the histogram. // For unfixed-len types, it includes LEN and BYTE. TotColSize int64 // Correlation is the statistical correlation between physical row ordering and logical ordering of // the column values. This ranges from -1 to +1, and it is only valid for Column histogram, not for // Index histogram. Correlation float64 }
Histogram represents statistics for a column or index.
func BuildColumn ¶
func BuildColumn(ctx sessionctx.Context, numBuckets, id int64, collector *SampleCollector, tp *types.FieldType) (*Histogram, error)
BuildColumn builds histogram from samples for column.
func BuildColumnHist ¶
func BuildColumnHist(ctx sessionctx.Context, numBuckets, id int64, collector *SampleCollector, tp *types.FieldType, count int64, ndv int64, nullCount int64) (*Histogram, error)
BuildColumnHist build a histogram for a column. numBuckets: number of buckets for the histogram. id: the id of the table. collector: the collector of samples. tp: the FieldType for the column. count: represents the row count for the column. ndv: represents the number of distinct values for the column. nullCount: represents the number of null values for the column.
func HistogramFromProto ¶
func HistogramFromProto(protoHg *tipb.Histogram) *Histogram
HistogramFromProto converts Histogram from its protobuf representation. Note that we will set BytesDatum for the lower/upper bound in the bucket, the decode will be after all histograms merged.
func MergeHistograms ¶
func MergeHistograms(sc *stmtctx.StatementContext, lh *Histogram, rh *Histogram, bucketSize int, statsVer int) (*Histogram, error)
MergeHistograms merges two histograms.
func MergePartitionHist2GlobalHist ¶
func MergePartitionHist2GlobalHist(sc *stmtctx.StatementContext, hists []*Histogram, popedTopN []TopNMeta, expBucketNumber int64, isIndex bool) (*Histogram, error)
MergePartitionHist2GlobalHist merges hists (partition-level Histogram) to a global-level Histogram
func NewHistogram ¶
func NewHistogram(id, ndv, nullCount int64, version uint64, tp *types.FieldType, bucketSize int, totColSize int64) *Histogram
NewHistogram creates a new histogram.
func (*Histogram) AppendBucket ¶
AppendBucket appends a bucket into `hg`.
func (*Histogram) AppendBucketWithNDV ¶
func (hg *Histogram) AppendBucketWithNDV(lower *types.Datum, upper *types.Datum, count, repeat, ndv int64)
AppendBucketWithNDV appends a bucket into `hg` and set value for field `NDV`.
func (*Histogram) AvgCountPerNotNullValue ¶
AvgCountPerNotNullValue gets the average row count per value by the data of histogram.
func (*Histogram) BetweenRowCount ¶
BetweenRowCount estimates the row count where column greater or equal to a and less than b. The input sctx is just for debug trace, you can pass nil safely if that's not needed.
func (*Histogram) BinarySearchRemoveVal ¶
BinarySearchRemoveVal removes the value from the TopN using binary search.
func (*Histogram) BucketCount ¶
BucketCount returns the count of the bucket with index idx.
func (*Histogram) BucketToString ¶
BucketToString change the given bucket to string format.
func (*Histogram) DestroyAndPutToPool ¶
func (hg *Histogram) DestroyAndPutToPool()
DestroyAndPutToPool resets the FMSketch and puts it to the pool.
func (*Histogram) EqualRowCount ¶
func (hg *Histogram) EqualRowCount(sctx planctx.PlanContext, value types.Datum, hasBucketNDV bool) (count float64, matched bool)
EqualRowCount estimates the row count where the column equals to value. matched: return true if this returned row count is from Bucket.Repeat or bucket NDV, which is more accurate than if not. The input sctx is just for debug trace, you can pass nil safely if that's not needed.
func (*Histogram) ExtractTopN ¶
ExtractTopN extracts topn from histogram.
func (*Histogram) GetIncreaseFactor ¶
GetIncreaseFactor will return a factor of data increasing after the last analysis.
func (*Histogram) GreaterRowCount ¶
GreaterRowCount estimates the row count where the column greater than value. It's deprecated. Only used for test.
func (*Histogram) IsIndexHist ¶
IsIndexHist checks whether current histogram is one for index.
func (*Histogram) LessRowCount ¶
LessRowCount estimates the row count where the column less than value. The input sctx is just for debug trace, you can pass nil safely if that's not needed.
func (*Histogram) LessRowCountWithBktIdx ¶
func (hg *Histogram) LessRowCountWithBktIdx(sctx planctx.PlanContext, value types.Datum) (result float64, bucketIdx int)
LessRowCountWithBktIdx estimates the row count where the column less than value. The input sctx is just for debug trace, you can pass nil safely if that's not needed.
func (*Histogram) LocateBucket ¶
func (hg *Histogram) LocateBucket(sctx planctx.PlanContext, value types.Datum) (exceed bool, bucketIdx int, inBucket, matchLastValue bool)
LocateBucket locates where a value falls in the range of the Histogram. The input sctx is just for debug trace, you can pass nil safely if that's not needed.
Return value: exceed: if the value is larger than the upper bound of the last Bucket of the Histogram. bucketIdx: assuming exceed if false, which Bucket does this value fall in (note: the range before a Bucket is also considered belong to this Bucket). inBucket: assuming exceed if false, whether this value falls in this Bucket, instead of falls between this Bucket and the previous Bucket. matchLastValue: assuming inBucket is true, if this value is the last value in this Bucket, which has a counter (Bucket.Repeat).
Examples: val0 |<-[bkt0]->| |<-[bkt1]->val1(last value)| val2 |<--val3--[bkt2]->| |<-[bkt3]->| val4 locateBucket(val0): false, 0, false, false locateBucket(val1): false, 1, true, true locateBucket(val2): false, 2, false, false locateBucket(val3): false, 2, true, false locateBucket(val4): true, 3, false, false
func (*Histogram) LowerToDatum ¶
LowerToDatum gets the lower bound of bucket `idx` to datum.
func (*Histogram) MemoryUsage ¶
MemoryUsage returns the total memory usage of this Histogram.
func (*Histogram) NotNullCount ¶
NotNullCount indicates the count of non-null values in column histogram and single-column index histogram, for multi-column index histogram, since we cannot define null for the row, we treat all rows as non-null, that means, notNullCount would return same value as TotalRowCount for multi-column index histograms.
func (*Histogram) OutOfRange ¶
OutOfRange checks if the datum is out of range.
func (*Histogram) OutOfRangeRowCount ¶
func (hg *Histogram) OutOfRangeRowCount( sctx planctx.PlanContext, lDatum, rDatum *types.Datum, realtimeRowCount, modifyCount, histNDV int64, ) (result float64)
OutOfRangeRowCount estimate the row count of part of [lDatum, rDatum] which is out of range of the histogram. Here we assume the density of data is decreasing from the lower/upper bound of the histogram toward outside. The maximum row count it can get is the modifyCount. It reaches the maximum when out-of-range width reaches histogram range width. As it shows below. To calculate the out-of-range row count, we need to calculate the percentage of the shaded area. Note that we assume histL-boundL == histR-histL == boundR-histR here.
/│ │\ / │ │ \ /x│ │◄─histogram─►│ \ / xx│ │ range │ \ / │xxx│ │ │ \ / │xxx│ │ │ \
────┴────┴───┴──┴─────────────┴───────────┴─────
▲ ▲ ▲ ▲ ▲ ▲ │ │ │ │ │ │ boundL │ │histL histR boundR │ │ lDatum rDatum
The percentage of shaded area on the left side calculation formula is: leftPercent = (math.Pow(actualR-boundL, 2) - math.Pow(actualL-boundL, 2)) / math.Pow(histWidth, 2) You can find more details at https://github.com/pingcap/tidb/pull/47966#issuecomment-1778866876
func (*Histogram) PreCalculateScalar ¶
func (hg *Histogram) PreCalculateScalar()
PreCalculateScalar converts the lower and upper to scalar. When the datum type is KindString or KindBytes, we also calculate their common prefix length, because when a value falls between lower and upper, the common prefix of lower and upper equals to the common prefix of the lower, upper and the value. For some simple types like `Int64`, we do not convert it because we can directly infer the scalar value.
func (*Histogram) RemoveVals ¶
RemoveVals remove the given values from the histogram. This function contains an **ASSUMPTION**: valCntPairs is sorted in ascending order.
func (*Histogram) SplitRange ¶
func (hg *Histogram) SplitRange(sc *stmtctx.StatementContext, oldRanges []*ranger.Range, encoded bool) ([]*ranger.Range, bool)
SplitRange splits the range according to the histogram lower bound. Note that we treat first bucket's lower bound as -inf and last bucket's upper bound as +inf, so all the split ranges will totally fall in one of the (-inf, l(1)), [l(1), l(2)),...[l(n-2), l(n-1)), [l(n-1), +inf), where n is the number of buckets, l(i) is the i-th bucket's lower bound.
func (*Histogram) StandardizeForV2AnalyzeIndex ¶
func (hg *Histogram) StandardizeForV2AnalyzeIndex()
StandardizeForV2AnalyzeIndex fixes some "irregular" places in the Histogram, which come from current implementation of analyze index task in v2. For now, it does two things: 1. Remove empty buckets. 2. Reset Bucket.NDV to 0.
func (*Histogram) TotalRowCount ¶
TotalRowCount returns the total count of this histogram.
func (*Histogram) TruncateHistogram ¶
TruncateHistogram truncates the histogram to `numBkt` buckets.
type Index ¶
type Index struct { LastAnalyzePos types.Datum CMSketch *CMSketch TopN *TopN FMSketch *FMSketch Info *model.IndexInfo Histogram StatsLoadedStatus StatsVer int64 // StatsVer is the version of the current stats, used to maintain compatibility Flag int64 // PhysicalID is the physical table id, // or it could possibly be -1, which means "stats not available". // The -1 case could happen in a pseudo stats table, and in this case, this stats should not trigger stats loading. PhysicalID int64 }
Index represents an index histogram.
func (*Index) DropUnnecessaryData ¶
func (idx *Index) DropUnnecessaryData()
DropUnnecessaryData drops unnecessary data for index.
func (*Index) EvictAllStats ¶
func (idx *Index) EvictAllStats()
EvictAllStats evicts all stats Note that this function is only used for test
func (*Index) GetEvictedStatus ¶
GetEvictedStatus returns the evicted status
func (*Index) GetIncreaseFactor ¶
GetIncreaseFactor get the increase factor to adjust the final estimated count when the table is modified.
func (*Index) GetStatsVer ¶
GetStatsVer returns the version of the current stats
func (*Index) IsAllEvicted ¶
IsAllEvicted indicates whether all stats evicted
func (*Index) IsAnalyzed ¶
IsAnalyzed indicates whether the index is analyzed.
func (*Index) IsCMSExist ¶
IsCMSExist returns whether CMSketch exists.
func (*Index) MemoryUsage ¶
func (idx *Index) MemoryUsage() CacheItemMemoryUsage
MemoryUsage returns the total memory usage of a Histogram and CMSketch in Index. We ignore the size of other metadata in Index.
func (*Index) QueryBytes ¶
func (idx *Index) QueryBytes(sctx planctx.PlanContext, d []byte) (result uint64)
QueryBytes is used to query the count of specified bytes. The input sctx is just for debug trace, you can pass nil safely if that's not needed.
func (*Index) TotalRowCount ¶
TotalRowCount returns the total count of this index.
type IndexMemUsage ¶
type IndexMemUsage struct { IndexID int64 HistogramMemUsage int64 CMSketchMemUsage int64 TopNMemUsage int64 TotalMemUsage int64 }
IndexMemUsage records index memory usage
func (*IndexMemUsage) CMSMemUsage ¶
func (c *IndexMemUsage) CMSMemUsage() int64
CMSMemUsage implements CacheItemMemoryUsage
func (*IndexMemUsage) HistMemUsage ¶
func (c *IndexMemUsage) HistMemUsage() int64
HistMemUsage implements CacheItemMemoryUsage
func (*IndexMemUsage) ItemID ¶
func (c *IndexMemUsage) ItemID() int64
ItemID implements CacheItemMemoryUsage
func (*IndexMemUsage) TopnMemUsage ¶
func (c *IndexMemUsage) TopnMemUsage() int64
TopnMemUsage implements CacheItemMemoryUsage
func (*IndexMemUsage) TotalMemoryUsage ¶
func (c *IndexMemUsage) TotalMemoryUsage() int64
TotalMemoryUsage implements CacheItemMemoryUsage
func (*IndexMemUsage) TrackingMemUsage ¶
func (c *IndexMemUsage) TrackingMemUsage() int64
TrackingMemUsage implements CacheItemMemoryUsage
type ReservoirRowSampleCollector ¶
type ReservoirRowSampleCollector struct { MaxSampleSize int // contains filtered or unexported fields }
ReservoirRowSampleCollector collects the samples from the source and organize the samples by row. It will maintain the following things:
Row samples. FM sketches(To calculate the NDV). Null counts. The data sizes. The number of rows.
It uses weighted reservoir sampling(A-Res) to do the sampling.
func NewReservoirRowSampleCollector ¶
func NewReservoirRowSampleCollector(maxSampleSize int, totalLen int) *ReservoirRowSampleCollector
NewReservoirRowSampleCollector creates the new collector by the given inputs.
func (*ReservoirRowSampleCollector) Base ¶
func (s *ReservoirRowSampleCollector) Base() *baseCollector
Base implements the RowSampleCollector interface.
func (*ReservoirRowSampleCollector) DestroyAndPutToPool ¶
func (s *ReservoirRowSampleCollector) DestroyAndPutToPool()
DestroyAndPutToPool implements the interface RowSampleCollector.
func (*ReservoirRowSampleCollector) MergeCollector ¶
func (s *ReservoirRowSampleCollector) MergeCollector(subCollector RowSampleCollector)
MergeCollector merges the collectors to a final one.
type ReservoirRowSampleItem ¶
ReservoirRowSampleItem is the item for the ReservoirRowSampleCollector. The weight is needed for the sampling algorithm.
func (ReservoirRowSampleItem) MemUsage ¶
func (i ReservoirRowSampleItem) MemUsage() (sum int64)
MemUsage returns the memory usage of sample item.
type RowSampleBuilder ¶
type RowSampleBuilder struct { RecordSet sqlexec.RecordSet Sc *stmtctx.StatementContext Rng *rand.Rand ColsFieldType []*types.FieldType Collators []collate.Collator ColGroups [][]int64 MaxSampleSize int SampleRate float64 MaxFMSketchSize int }
RowSampleBuilder is used to construct the ReservoirRowSampleCollector to get the samples.
func (*RowSampleBuilder) Collect ¶
func (s *RowSampleBuilder) Collect() (RowSampleCollector, error)
Collect first builds the collector. Then maintain the null count, FM sketch and the data size for each column and column group. Then use the weighted reservoir sampling to collect the samples.
type RowSampleCollector ¶
type RowSampleCollector interface { MergeCollector(collector RowSampleCollector) Base() *baseCollector DestroyAndPutToPool() // contains filtered or unexported methods }
RowSampleCollector implements the needed interface for a row-based sample collector.
func NewRowSampleCollector ¶
func NewRowSampleCollector(maxSampleSize int, sampleRate float64, totalLen int) RowSampleCollector
NewRowSampleCollector creates a collector from the given inputs.
type SampleBuilder ¶
type SampleBuilder struct { RecordSet sqlexec.RecordSet Sc *stmtctx.StatementContext PkBuilder *SortedBuilder Collators []collate.Collator ColsFieldType []*types.FieldType ColLen int // ColLen is the number of columns need to be sampled. MaxBucketSize int64 MaxSampleSize int64 MaxFMSketchSize int64 CMSketchDepth int32 CMSketchWidth int32 }
SampleBuilder is used to build samples for columns. Also, if primary key is handle, it will directly build histogram for it.
func (SampleBuilder) CollectColumnStats ¶
func (s SampleBuilder) CollectColumnStats() ([]*SampleCollector, *SortedBuilder, error)
CollectColumnStats collects sample from the result set using Reservoir Sampling algorithm, and estimates NDVs using FM Sketch during the collecting process. It returns the sample collectors which contain total count, null count, distinct values count and CM Sketch. It also returns the statistic builder for PK which contains the histogram. See https://en.wikipedia.org/wiki/Reservoir_sampling
type SampleCollector ¶
type SampleCollector struct { FMSketch *FMSketch CMSketch *CMSketch TopN *TopN Samples []*SampleItem NullCount int64 Count int64 // Count is the number of non-null rows. MaxSampleSize int64 TotalSize int64 // TotalSize is the total size of column. MemSize int64 // major memory size of this sample collector. IsMerger bool // contains filtered or unexported fields }
SampleCollector will collect Samples and calculate the count and ndv of an attribute.
func SampleCollectorFromProto ¶
func SampleCollectorFromProto(collector *tipb.SampleCollector) *SampleCollector
SampleCollectorFromProto converts SampleCollector from its protobuf representation.
func (*SampleCollector) CalcTotalSize ¶
func (c *SampleCollector) CalcTotalSize()
CalcTotalSize is to calculate total size based on samples.
func (*SampleCollector) ExtractTopN ¶
func (c *SampleCollector) ExtractTopN(numTop uint32, sc *stmtctx.StatementContext, tp *types.FieldType, timeZone *time.Location) error
ExtractTopN extracts the topn from the CM Sketch.
func (*SampleCollector) MergeSampleCollector ¶
func (c *SampleCollector) MergeSampleCollector(sc *stmtctx.StatementContext, rc *SampleCollector)
MergeSampleCollector merges two sample collectors.
type SampleItem ¶
type SampleItem struct { // Value is the sampled column value. Value types.Datum // Handle is the handle of the sample in its key. // This property is used to calculate Ordinal in fast analyze. Handle kv.Handle // Ordinal is original position of this item in SampleCollector before sorting. This // is used for computing correlation. Ordinal int }
SampleItem is an item of sampled column value.
func CopySampleItems ¶
func CopySampleItems(items []*SampleItem) []*SampleItem
CopySampleItems returns a deep copy of SampleItem slice.
type SortedBuilder ¶
type SortedBuilder struct { Count int64 // contains filtered or unexported fields }
SortedBuilder is used to build histograms for PK and index.
func NewSortedBuilder ¶
func NewSortedBuilder(sc *stmtctx.StatementContext, numBuckets, id int64, tp *types.FieldType, statsVer int) *SortedBuilder
NewSortedBuilder creates a new SortedBuilder.
func (*SortedBuilder) Hist ¶
func (b *SortedBuilder) Hist() *Histogram
Hist returns the histogram built by SortedBuilder.
type StatsLoadedStatus ¶
type StatsLoadedStatus struct {
// contains filtered or unexported fields
}
StatsLoadedStatus indicates the status of statistics
func NewStatsAllEvictedStatus ¶
func NewStatsAllEvictedStatus() StatsLoadedStatus
NewStatsAllEvictedStatus returns the status that only loads count/nullCount/NDV and doesn't load CMSketch/TopN/Histogram. When we load table stats, column stats is in AllEvicted status by default. CMSketch/TopN/Histogram of column is only loaded when we really need column stats.
func NewStatsFullLoadStatus ¶
func NewStatsFullLoadStatus() StatsLoadedStatus
NewStatsFullLoadStatus returns the status that the column/index fully loaded
func (*StatsLoadedStatus) Copy ¶
func (s *StatsLoadedStatus) Copy() StatsLoadedStatus
Copy copies the status
func (StatsLoadedStatus) IsAllEvicted ¶
func (s StatsLoadedStatus) IsAllEvicted() bool
IsAllEvicted indicates whether all the stats got evicted or not.
func (StatsLoadedStatus) IsEssentialStatsLoaded ¶
func (s StatsLoadedStatus) IsEssentialStatsLoaded() bool
IsEssentialStatsLoaded indicates whether the essential statistics is loaded. If the column/index was loaded, and at least histogram and topN still exists, the necessary statistics is still loaded.
func (StatsLoadedStatus) IsFullLoad ¶
func (s StatsLoadedStatus) IsFullLoad() bool
IsFullLoad indicates whether the stats are full loaded
func (StatsLoadedStatus) IsLoadNeeded ¶
func (s StatsLoadedStatus) IsLoadNeeded() bool
IsLoadNeeded indicates whether it needs load statistics during LoadNeededHistograms or sync stats If the column/index was loaded and any statistics of it is evicting, it also needs re-load statistics.
func (StatsLoadedStatus) IsStatsInitialized ¶
func (s StatsLoadedStatus) IsStatsInitialized() bool
IsStatsInitialized indicates whether the column/index's statistics was loaded from storage before. Note that `IsStatsInitialized` only can be set in initializing
func (StatsLoadedStatus) StatusToString ¶
func (s StatsLoadedStatus) StatusToString() string
StatusToString gets the string info of StatsLoadedStatus
type StatsTblTraceInfo ¶
type StatsTblTraceInfo struct { Columns []*statsTblColOrIdxInfo Indexes []*statsTblColOrIdxInfo PhysicalID int64 Version uint64 Count int64 ModifyCount int64 }
StatsTblTraceInfo is simplified from Table and used for debug trace.
func TraceStatsTbl ¶
func TraceStatsTbl(statsTbl *Table) *StatsTblTraceInfo
TraceStatsTbl converts a Table to StatsTblTraceInfo, which is suitable for the debug trace.
type Table ¶
type Table struct { ExtendedStats *ExtendedStatsColl ColAndIdxExistenceMap *ColAndIdxExistenceMap HistColl Version uint64 // It's the timestamp of the last analyze time. // We used it in auto-analyze to determine if this table has been analyzed. // The source of this field comes from two parts: // 1. Initialized by snapshot when loading stats_meta. // 2. Updated by the analysis time of a specific column or index when loading the histogram of the column or index. LastAnalyzeVersion uint64 // TblInfoUpdateTS is the UpdateTS of the TableInfo used when filling this struct. // It is the schema version of the corresponding table. It is used to skip redundant // loading of stats, i.e, if the cached stats is already update-to-date with mysql.stats_xxx tables, // and the schema of the table does not change, we don't need to load the stats for this // table again. TblInfoUpdateTS uint64 IsPkIsHandle bool }
Table represents statistics for a table.
func PseudoTable ¶
PseudoTable creates a pseudo table statistics. Usually, we don't want to trigger stats loading for pseudo table. But there are exceptional cases. In such cases, we should pass allowTriggerLoading as true. Such case could possibly happen in getStatsTable().
func (*Table) ColumnByName ¶
ColumnByName finds the statistics.Column for the given column.
func (*Table) ColumnIsLoadNeeded ¶
ColumnIsLoadNeeded checks whether the column needs trigger the async/sync load. The Column should be visible in the table and really has analyzed statistics in the storage. Also, if the stats has been loaded into the memory, we also don't need to load it. We return the Column together with the checking result, to avoid accessing the map multiple times. The first bool is whether we need to load it into memory. The second bool is whether this column has stats in the system table or not.
func (*Table) GetStatsHealthy ¶
GetStatsHealthy calculates stats healthy if the table stats is not pseudo. If the table stats is pseudo, it returns 0, false, otherwise it returns stats healthy, true.
func (*Table) GetStatsInfo ¶
func (t *Table) GetStatsInfo(id int64, isIndex bool, needCopy bool) (*Histogram, *CMSketch, *TopN, *FMSketch, bool)
GetStatsInfo returns their statistics according to the ID of the column or index, including histogram, CMSketch, TopN and FMSketch.
needCopy: In order to protect the item in the cache from being damaged, we need to copy the item.
func (*Table) IndexIsLoadNeeded ¶
IndexIsLoadNeeded checks whether the index needs trigger the async/sync load. The Index should be visible in the table and really has analyzed statistics in the stroage. Also, if the stats has been loaded into the memory, we also don't need to load it. We return the Index together with the checking result, to avoid accessing the map multiple times.
func (*Table) IndexStartWithColumn ¶
IndexStartWithColumn finds the first index whose first column is the given column.
func (*Table) IsAnalyzed ¶
IsAnalyzed checks whether the table is analyzed or not by checking its last analyze's timestamp value. A valid timestamp must be greater than 0.
func (*Table) IsEligibleForAnalysis ¶
IsEligibleForAnalysis checks whether the table is eligible for analysis.
func (*Table) IsInitialized ¶
IsInitialized returns true if any column/index stats of the table is initialized.
func (*Table) IsOutdated ¶
IsOutdated returns true if the table stats is outdated.
func (*Table) MemoryUsage ¶
func (t *Table) MemoryUsage() *TableMemoryUsage
MemoryUsage returns the total memory usage of this Table. it will only calc the size of Columns and Indices stats data of table. We ignore the size of other metadata in Table
func (*Table) ReleaseAndPutToPool ¶
func (t *Table) ReleaseAndPutToPool()
ReleaseAndPutToPool releases data structures of Table and put itself back to pool.
func (*Table) ShallowCopy ¶
ShallowCopy copies the current table. It's different from Copy(). Only the struct Table (and also the embedded HistColl) is copied here. The internal containers, like t.Columns and t.Indices, and the stats, like TopN and Histogram are not copied.
type TableCacheItem ¶
type TableCacheItem interface { ItemID() int64 MemoryUsage() CacheItemMemoryUsage IsAllEvicted() bool GetEvictedStatus() int DropUnnecessaryData() IsStatsInitialized() bool GetStatsVer() int64 }
TableCacheItem indicates the unit item stored in statsCache, eg: Column/Index
type TableMemoryUsage ¶
type TableMemoryUsage struct { ColumnsMemUsage map[int64]CacheItemMemoryUsage IndicesMemUsage map[int64]CacheItemMemoryUsage TableID int64 TotalMemUsage int64 }
TableMemoryUsage records tbl memory usage
func (*TableMemoryUsage) TotalColTrackingMemUsage ¶
func (t *TableMemoryUsage) TotalColTrackingMemUsage() (sum int64)
TotalColTrackingMemUsage returns total columns' tracking memory usage
func (*TableMemoryUsage) TotalIdxTrackingMemUsage ¶
func (t *TableMemoryUsage) TotalIdxTrackingMemUsage() (sum int64)
TotalIdxTrackingMemUsage returns total indices' tracking memory usage
func (*TableMemoryUsage) TotalTrackingMemUsage ¶
func (t *TableMemoryUsage) TotalTrackingMemUsage() int64
TotalTrackingMemUsage return total tracking memory usage
type TopN ¶
type TopN struct {
TopN []TopNMeta
}
TopN stores most-common values, which is used to estimate point queries.
func DecodeTopN ¶
DecodeTopN decodes a TopN from the given byte slice.
func TopNFromProto ¶
func TopNFromProto(protoTopN []*tipb.CMSketchTopN) *TopN
TopNFromProto converts TopN from its protobuf representation.
func (*TopN) AppendTopN ¶
AppendTopN appends a topn into the TopN struct.
func (*TopN) BetweenCount ¶
func (c *TopN) BetweenCount(sctx planctx.PlanContext, l, r []byte) (result uint64)
BetweenCount estimates the row count for interval [l, r). The input sctx is just for debug trace, you can pass nil safely if that's not needed.
func (*TopN) DecodedString ¶
DecodedString returns the value with decoded result.
func (*TopN) LowerBound ¶
LowerBound searches on the sorted top-n items, returns the smallest index i such that the value at element i is not less than `d`.
func (*TopN) MemoryUsage ¶
MemoryUsage returns the total memory usage of a topn.
func (*TopN) Num ¶
Num returns the ndv of the TopN.
TopN is declared directly in Histogram. So the Len is occupied by the Histogram. We use Num instead.
func (*TopN) QueryTopN ¶
QueryTopN returns the results for (h1, h2) in murmur3.Sum128(), if not exists, return (0, false). The input sctx is just for debug trace, you can pass nil safely if that's not needed.
func (*TopN) TotalCount ¶
TotalCount returns how many data is stored in TopN.
type WeightedRowSampleHeap ¶
type WeightedRowSampleHeap []*ReservoirRowSampleItem
WeightedRowSampleHeap implements the Heap interface.
func (WeightedRowSampleHeap) Len ¶
func (h WeightedRowSampleHeap) Len() int
Len implements the Heap interface.
func (WeightedRowSampleHeap) Less ¶
func (h WeightedRowSampleHeap) Less(i, j int) bool
Less implements the Heap interface.
func (*WeightedRowSampleHeap) Pop ¶
func (h *WeightedRowSampleHeap) Pop() any
Pop implements the Heap interface.
func (*WeightedRowSampleHeap) Push ¶
func (h *WeightedRowSampleHeap) Push(i any)
Push implements the Heap interface.
func (WeightedRowSampleHeap) Swap ¶
func (h WeightedRowSampleHeap) Swap(i, j int)
Swap implements the Heap interface.