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index.go
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/
index.go
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package mandodb
import (
"strings"
"sync"
"github.com/RoaringBitmap/roaring"
)
// Memory Index 负责管理内存索引的存储和搜索
type memorySidSet struct {
set map[string]struct{}
mut sync.Mutex
}
func newMemorySidSet() *memorySidSet {
return &memorySidSet{set: make(map[string]struct{})}
}
func (mss *memorySidSet) Add(a string) {
mss.mut.Lock()
defer mss.mut.Unlock()
mss.set[a] = struct{}{}
}
func (mss *memorySidSet) Size() int {
mss.mut.Lock()
defer mss.mut.Unlock()
return len(mss.set)
}
func (mss *memorySidSet) Copy() *memorySidSet {
mss.mut.Lock()
defer mss.mut.Unlock()
newset := newMemorySidSet()
for k := range mss.set {
newset.set[k] = struct{}{}
}
return newset
}
func (mss *memorySidSet) Intersection(other *memorySidSet) {
mss.mut.Lock()
defer mss.mut.Unlock()
for k := range mss.set {
_, ok := other.set[k]
if !ok {
delete(mss.set, k)
}
}
}
func (mss *memorySidSet) Union(other *memorySidSet) {
mss.mut.Lock()
defer mss.mut.Unlock()
for k := range other.set {
mss.set[k] = struct{}{}
}
}
func (mss *memorySidSet) List() []string {
mss.mut.Lock()
defer mss.mut.Unlock()
keys := make([]string, 0, len(mss.set))
for k := range mss.set {
keys = append(keys, k)
}
return keys
}
type memoryIndexMap struct {
idx map[string]*memorySidSet
mut sync.Mutex
}
func newMemoryIndexMap() *memoryIndexMap {
return &memoryIndexMap{idx: make(map[string]*memorySidSet)}
}
func (mim *memoryIndexMap) Range(f func(k string, v *memorySidSet)) {
mim.mut.Lock()
defer mim.mut.Unlock()
for k, sids := range mim.idx {
f(k, sids)
}
}
func (mim *memoryIndexMap) UpdateIndex(sid string, labels LabelSet) {
mim.mut.Lock()
defer mim.mut.Unlock()
for _, label := range labels {
key := label.MarshalName()
if _, ok := mim.idx[key]; !ok {
mim.idx[key] = newMemorySidSet()
}
mim.idx[key].Add(sid)
}
}
func (mim *memoryIndexMap) MatchSids(lvs *labelValueSet, lms LabelMatcherSet) []string {
mim.mut.Lock()
defer mim.mut.Unlock()
sids := newMemorySidSet()
var got bool
for i := len(lms) - 1; i >= 0; i-- {
tmp := newMemorySidSet()
vs := lvs.Match(lms[i])
for _, v := range vs {
midx := mim.idx[joinSeparator(lms[i].Name, v)]
if midx == nil || midx.Size() <= 0 {
continue
}
tmp.Union(midx.Copy())
}
if tmp == nil || tmp.Size() <= 0 {
return nil
}
if !got {
sids = tmp
got = true
continue
}
sids.Intersection(tmp.Copy())
}
return sids.List()
}
// Disk Index 负责管理磁盘的索引存储和搜索
type diskSidSet struct {
set *roaring.Bitmap
mut sync.Mutex
}
func newDiskSidSet() *diskSidSet {
return &diskSidSet{set: roaring.New()}
}
func (dss *diskSidSet) Add(a uint32) {
dss.mut.Lock()
defer dss.mut.Unlock()
dss.set.Add(a)
}
type diskIndexMap struct {
label2sids map[string]*diskSidSet
labelOrdered map[int]string
mut sync.Mutex
}
func newDiskIndexMap(swl []seriesWithLabel) *diskIndexMap {
dim := &diskIndexMap{
label2sids: make(map[string]*diskSidSet),
labelOrdered: make(map[int]string),
}
for i := range swl {
row := swl[i]
dim.label2sids[row.Name] = newDiskSidSet()
for _, sid := range swl[i].Sids {
dim.label2sids[row.Name].Add(sid)
}
dim.labelOrdered[i] = row.Name
}
return dim
}
func (dim *diskIndexMap) MatchLabels(lids ...uint32) []Label {
ret := make([]Label, 0, len(lids))
for _, lid := range lids {
labelPair := dim.labelOrdered[int(lid)]
kv := strings.SplitN(labelPair, separator, 2)
if len(kv) != 2 {
continue
}
ret = append(ret, Label{
Name: kv[0],
Value: kv[1],
})
}
return ret
}
func (dim *diskIndexMap) MatchSids(lvs *labelValueSet, lms LabelMatcherSet) []uint32 {
dim.mut.Lock()
defer dim.mut.Unlock()
lst := make([]*roaring.Bitmap, 0)
for i := len(lms) - 1; i >= 0; i-- {
tmp := make([]*roaring.Bitmap, 0)
vs := lvs.Match(lms[i])
for _, v := range vs {
didx := dim.label2sids[joinSeparator(lms[i].Name, v)]
if didx == nil || didx.set.IsEmpty() {
continue
}
tmp = append(tmp, didx.set)
}
union := roaring.ParOr(4, tmp...)
if union.IsEmpty() {
return nil
}
lst = append(lst, union)
}
return roaring.ParAnd(4, lst...).ToArray()
}