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builder.go
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/
builder.go
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// Copyright 2017 PingCAP, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// See the License for the specific language governing permissions and
// limitations under the License.
package statistics
import (
"github.com/juju/errors"
"github.com/pingcap/tidb/ast"
"github.com/pingcap/tidb/context"
"github.com/pingcap/tidb/sessionctx/variable"
"github.com/pingcap/tidb/util/codec"
"github.com/pingcap/tidb/util/types"
)
// SortedBuilder is used to build histograms for PK and index.
type SortedBuilder struct {
sc *variable.StatementContext
numBuckets int64
valuesPerBucket int64
lastNumber int64
bucketIdx int64
Count int64
hist *Histogram
}
// NewSortedBuilder creates a new SortedBuilder.
func NewSortedBuilder(sc *variable.StatementContext, numBuckets, id int64) *SortedBuilder {
return &SortedBuilder{
sc: sc,
numBuckets: numBuckets,
valuesPerBucket: 1,
hist: &Histogram{
ID: id,
Buckets: make([]Bucket, 1, numBuckets),
},
}
}
// Hist returns the histogram built by SortedBuilder.
func (b *SortedBuilder) Hist() *Histogram {
if b.Count == 0 {
return &Histogram{ID: b.hist.ID}
}
return b.hist
}
// Iterate updates the histogram incrementally.
func (b *SortedBuilder) Iterate(data types.Datum) error {
cmp, err := b.hist.Buckets[b.bucketIdx].UpperBound.CompareDatum(b.sc, &data)
if err != nil {
return errors.Trace(err)
}
b.Count++
if cmp == 0 {
// The new item has the same value as current bucket value, to ensure that
// a same value only stored in a single bucket, we do not increase bucketIdx even if it exceeds
// valuesPerBucket.
b.hist.Buckets[b.bucketIdx].Count++
b.hist.Buckets[b.bucketIdx].Repeats++
} else if b.hist.Buckets[b.bucketIdx].Count+1-b.lastNumber <= b.valuesPerBucket {
// The bucket still have room to store a new item, update the bucket.
b.hist.Buckets[b.bucketIdx].Count++
b.hist.Buckets[b.bucketIdx].UpperBound = data
b.hist.Buckets[b.bucketIdx].Repeats = 1
if b.bucketIdx == 0 && b.hist.Buckets[0].Count == 1 {
b.hist.Buckets[0].LowerBound = data
}
b.hist.NDV++
} else {
// All buckets are full, we should merge buckets.
if b.bucketIdx+1 == b.numBuckets {
b.hist.mergeBuckets(b.bucketIdx)
b.valuesPerBucket *= 2
b.bucketIdx = b.bucketIdx / 2
if b.bucketIdx == 0 {
b.lastNumber = 0
} else {
b.lastNumber = b.hist.Buckets[b.bucketIdx-1].Count
}
}
// We may merge buckets, so we should check it again.
if b.hist.Buckets[b.bucketIdx].Count+1-b.lastNumber <= b.valuesPerBucket {
b.hist.Buckets[b.bucketIdx].Count++
b.hist.Buckets[b.bucketIdx].UpperBound = data
b.hist.Buckets[b.bucketIdx].Repeats = 1
} else {
b.lastNumber = b.hist.Buckets[b.bucketIdx].Count
b.bucketIdx++
b.hist.Buckets = append(b.hist.Buckets, Bucket{
Count: b.lastNumber + 1,
UpperBound: data,
LowerBound: data,
Repeats: 1,
})
}
b.hist.NDV++
}
return nil
}
// BuildIndex builds histogram for index.
func BuildIndex(ctx context.Context, numBuckets, id int64, records ast.RecordSet) (int64, *Histogram, error) {
b := NewSortedBuilder(ctx.GetSessionVars().StmtCtx, numBuckets, id)
for {
row, err := records.Next()
if err != nil {
return 0, nil, errors.Trace(err)
}
if row == nil {
break
}
bytes, err := codec.EncodeKey(nil, row.Data...)
if err != nil {
return 0, nil, errors.Trace(err)
}
data := types.NewBytesDatum(bytes)
err = b.Iterate(data)
if err != nil {
return 0, nil, errors.Trace(err)
}
}
return b.Count, b.Hist(), nil
}
// BuildColumn builds histogram from samples for column.
func BuildColumn(ctx context.Context, numBuckets, id int64, collector *SampleCollector) (*Histogram, error) {
count := collector.Count
if count == 0 {
return &Histogram{ID: id, NullCount: collector.NullCount}, nil
}
sc := ctx.GetSessionVars().StmtCtx
samples := collector.Samples
err := types.SortDatums(sc, samples)
if err != nil {
return nil, errors.Trace(err)
}
ndv := collector.Sketch.NDV()
if ndv > count {
ndv = count
}
hg := &Histogram{
ID: id,
NDV: ndv,
NullCount: collector.NullCount,
Buckets: make([]Bucket, 1, numBuckets),
}
valuesPerBucket := float64(count)/float64(numBuckets) + 1
// As we use samples to build the histogram, the bucket number and repeat should multiply a factor.
sampleFactor := float64(count) / float64(len(samples))
ndvFactor := float64(count) / float64(hg.NDV)
if ndvFactor > sampleFactor {
ndvFactor = sampleFactor
}
bucketIdx := 0
var lastCount int64
hg.Buckets[0] = Bucket{
LowerBound: samples[0],
UpperBound: samples[0],
Count: int64(sampleFactor),
Repeats: int64(ndvFactor),
}
for i := int64(1); i < int64(len(samples)); i++ {
cmp, err := hg.Buckets[bucketIdx].UpperBound.CompareDatum(sc, &samples[i])
if err != nil {
return nil, errors.Trace(err)
}
totalCount := float64(i+1) * sampleFactor
if cmp == 0 {
// The new item has the same value as current bucket value, to ensure that
// a same value only stored in a single bucket, we do not increase bucketIdx even if it exceeds
// valuesPerBucket.
hg.Buckets[bucketIdx].Count = int64(totalCount)
if float64(hg.Buckets[bucketIdx].Repeats) == ndvFactor {
hg.Buckets[bucketIdx].Repeats = int64(2 * sampleFactor)
} else {
hg.Buckets[bucketIdx].Repeats += int64(sampleFactor)
}
} else if totalCount-float64(lastCount) <= valuesPerBucket {
// The bucket still have room to store a new item, update the bucket.
hg.Buckets[bucketIdx].Count = int64(totalCount)
hg.Buckets[bucketIdx].UpperBound = samples[i]
hg.Buckets[bucketIdx].Repeats = int64(ndvFactor)
} else {
lastCount = hg.Buckets[bucketIdx].Count
// The bucket is full, store the item in the next bucket.
bucketIdx++
hg.Buckets = append(hg.Buckets, Bucket{
Count: int64(totalCount),
UpperBound: samples[i],
LowerBound: samples[i],
Repeats: int64(ndvFactor),
})
}
}
return hg, nil
}
// AnalyzeResult is used to represent analyze result.
type AnalyzeResult struct {
TableID int64
Hist []*Histogram
Count int64
IsIndex int
Err error
}