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gitea/vendor/github.com/blevesearch/bleve/v2/index_impl.go

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// Copyright (c) 2014 Couchbase, 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,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package bleve
import (
"context"
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"encoding/json"
"fmt"
"os"
"sync"
"sync/atomic"
"time"
"github.com/blevesearch/bleve/v2/document"
"github.com/blevesearch/bleve/v2/index/upsidedown"
"github.com/blevesearch/bleve/v2/mapping"
"github.com/blevesearch/bleve/v2/registry"
"github.com/blevesearch/bleve/v2/search"
"github.com/blevesearch/bleve/v2/search/collector"
"github.com/blevesearch/bleve/v2/search/facet"
"github.com/blevesearch/bleve/v2/search/highlight"
index "github.com/blevesearch/bleve_index_api"
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)
type indexImpl struct {
path string
name string
meta *indexMeta
i index.Index
m mapping.IndexMapping
mutex sync.RWMutex
open bool
stats *IndexStat
}
const storePath = "store"
var mappingInternalKey = []byte("_mapping")
const SearchQueryStartCallbackKey = "_search_query_start_callback_key"
const SearchQueryEndCallbackKey = "_search_query_end_callback_key"
type SearchQueryStartCallbackFn func(size uint64) error
type SearchQueryEndCallbackFn func(size uint64) error
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func indexStorePath(path string) string {
return path + string(os.PathSeparator) + storePath
}
func newIndexUsing(path string, mapping mapping.IndexMapping, indexType string, kvstore string, kvconfig map[string]interface{}) (*indexImpl, error) {
// first validate the mapping
err := mapping.Validate()
if err != nil {
return nil, err
}
if kvconfig == nil {
kvconfig = map[string]interface{}{}
}
if kvstore == "" {
return nil, fmt.Errorf("bleve not configured for file based indexing")
}
rv := indexImpl{
path: path,
name: path,
m: mapping,
meta: newIndexMeta(indexType, kvstore, kvconfig),
}
rv.stats = &IndexStat{i: &rv}
// at this point there is hope that we can be successful, so save index meta
if path != "" {
err = rv.meta.Save(path)
if err != nil {
return nil, err
}
kvconfig["create_if_missing"] = true
kvconfig["error_if_exists"] = true
kvconfig["path"] = indexStorePath(path)
} else {
kvconfig["path"] = ""
}
// open the index
indexTypeConstructor := registry.IndexTypeConstructorByName(rv.meta.IndexType)
if indexTypeConstructor == nil {
return nil, ErrorUnknownIndexType
}
rv.i, err = indexTypeConstructor(rv.meta.Storage, kvconfig, Config.analysisQueue)
if err != nil {
return nil, err
}
err = rv.i.Open()
if err != nil {
return nil, err
}
defer func(rv *indexImpl) {
if !rv.open {
rv.i.Close()
}
}(&rv)
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// now persist the mapping
mappingBytes, err := json.Marshal(mapping)
if err != nil {
return nil, err
}
err = rv.i.SetInternal(mappingInternalKey, mappingBytes)
if err != nil {
return nil, err
}
// mark the index as open
rv.mutex.Lock()
defer rv.mutex.Unlock()
rv.open = true
indexStats.Register(&rv)
return &rv, nil
}
func openIndexUsing(path string, runtimeConfig map[string]interface{}) (rv *indexImpl, err error) {
rv = &indexImpl{
path: path,
name: path,
}
rv.stats = &IndexStat{i: rv}
rv.meta, err = openIndexMeta(path)
if err != nil {
return nil, err
}
// backwards compatibility if index type is missing
if rv.meta.IndexType == "" {
rv.meta.IndexType = upsidedown.Name
}
storeConfig := rv.meta.Config
if storeConfig == nil {
storeConfig = map[string]interface{}{}
}
storeConfig["path"] = indexStorePath(path)
storeConfig["create_if_missing"] = false
storeConfig["error_if_exists"] = false
for rck, rcv := range runtimeConfig {
storeConfig[rck] = rcv
}
// open the index
indexTypeConstructor := registry.IndexTypeConstructorByName(rv.meta.IndexType)
if indexTypeConstructor == nil {
return nil, ErrorUnknownIndexType
}
rv.i, err = indexTypeConstructor(rv.meta.Storage, storeConfig, Config.analysisQueue)
if err != nil {
return nil, err
}
err = rv.i.Open()
if err != nil {
return nil, err
}
defer func(rv *indexImpl) {
if !rv.open {
rv.i.Close()
}
}(rv)
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// now load the mapping
indexReader, err := rv.i.Reader()
if err != nil {
return nil, err
}
defer func() {
if cerr := indexReader.Close(); cerr != nil && err == nil {
err = cerr
}
}()
mappingBytes, err := indexReader.GetInternal(mappingInternalKey)
if err != nil {
return nil, err
}
var im *mapping.IndexMappingImpl
err = json.Unmarshal(mappingBytes, &im)
if err != nil {
return nil, fmt.Errorf("error parsing mapping JSON: %v\nmapping contents:\n%s", err, string(mappingBytes))
}
// mark the index as open
rv.mutex.Lock()
defer rv.mutex.Unlock()
rv.open = true
// validate the mapping
err = im.Validate()
if err != nil {
// note even if the mapping is invalid
// we still return an open usable index
return rv, err
}
rv.m = im
indexStats.Register(rv)
return rv, err
}
// Advanced returns internal index implementation
func (i *indexImpl) Advanced() (index.Index, error) {
return i.i, nil
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}
// Mapping returns the IndexMapping in use by this
// Index.
func (i *indexImpl) Mapping() mapping.IndexMapping {
return i.m
}
// Index the object with the specified identifier.
// The IndexMapping for this index will determine
// how the object is indexed.
func (i *indexImpl) Index(id string, data interface{}) (err error) {
if id == "" {
return ErrorEmptyID
}
i.mutex.RLock()
defer i.mutex.RUnlock()
if !i.open {
return ErrorIndexClosed
}
doc := document.NewDocument(id)
err = i.m.MapDocument(doc, data)
if err != nil {
return
}
err = i.i.Update(doc)
return
}
// IndexAdvanced takes a document.Document object
// skips the mapping and indexes it.
func (i *indexImpl) IndexAdvanced(doc *document.Document) (err error) {
if doc.ID() == "" {
return ErrorEmptyID
}
i.mutex.RLock()
defer i.mutex.RUnlock()
if !i.open {
return ErrorIndexClosed
}
err = i.i.Update(doc)
return
}
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// Delete entries for the specified identifier from
// the index.
func (i *indexImpl) Delete(id string) (err error) {
if id == "" {
return ErrorEmptyID
}
i.mutex.RLock()
defer i.mutex.RUnlock()
if !i.open {
return ErrorIndexClosed
}
err = i.i.Delete(id)
return
}
// Batch executes multiple Index and Delete
// operations at the same time. There are often
// significant performance benefits when performing
// operations in a batch.
func (i *indexImpl) Batch(b *Batch) error {
i.mutex.RLock()
defer i.mutex.RUnlock()
if !i.open {
return ErrorIndexClosed
}
return i.i.Batch(b.internal)
}
// Document is used to find the values of all the
// stored fields for a document in the index. These
// stored fields are put back into a Document object
// and returned.
func (i *indexImpl) Document(id string) (doc index.Document, err error) {
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i.mutex.RLock()
defer i.mutex.RUnlock()
if !i.open {
return nil, ErrorIndexClosed
}
indexReader, err := i.i.Reader()
if err != nil {
return nil, err
}
defer func() {
if cerr := indexReader.Close(); err == nil && cerr != nil {
err = cerr
}
}()
doc, err = indexReader.Document(id)
if err != nil {
return nil, err
}
return doc, nil
}
// DocCount returns the number of documents in the
// index.
func (i *indexImpl) DocCount() (count uint64, err error) {
i.mutex.RLock()
defer i.mutex.RUnlock()
if !i.open {
return 0, ErrorIndexClosed
}
// open a reader for this search
indexReader, err := i.i.Reader()
if err != nil {
return 0, fmt.Errorf("error opening index reader %v", err)
}
defer func() {
if cerr := indexReader.Close(); err == nil && cerr != nil {
err = cerr
}
}()
count, err = indexReader.DocCount()
return
}
// Search executes a search request operation.
// Returns a SearchResult object or an error.
func (i *indexImpl) Search(req *SearchRequest) (sr *SearchResult, err error) {
return i.SearchInContext(context.Background(), req)
}
var documentMatchEmptySize int
var searchContextEmptySize int
var facetResultEmptySize int
var documentEmptySize int
func init() {
var dm search.DocumentMatch
documentMatchEmptySize = dm.Size()
var sc search.SearchContext
searchContextEmptySize = sc.Size()
var fr search.FacetResult
facetResultEmptySize = fr.Size()
var d document.Document
documentEmptySize = d.Size()
}
// memNeededForSearch is a helper function that returns an estimate of RAM
// needed to execute a search request.
func memNeededForSearch(req *SearchRequest,
searcher search.Searcher,
topnCollector *collector.TopNCollector) uint64 {
backingSize := req.Size + req.From + 1
if req.Size+req.From > collector.PreAllocSizeSkipCap {
backingSize = collector.PreAllocSizeSkipCap + 1
}
numDocMatches := backingSize + searcher.DocumentMatchPoolSize()
estimate := 0
// overhead, size in bytes from collector
estimate += topnCollector.Size()
// pre-allocing DocumentMatchPool
estimate += searchContextEmptySize + numDocMatches*documentMatchEmptySize
// searcher overhead
estimate += searcher.Size()
// overhead from results, lowestMatchOutsideResults
estimate += (numDocMatches + 1) * documentMatchEmptySize
// additional overhead from SearchResult
estimate += reflectStaticSizeSearchResult + reflectStaticSizeSearchStatus
// overhead from facet results
if req.Facets != nil {
estimate += len(req.Facets) * facetResultEmptySize
}
// highlighting, store
if len(req.Fields) > 0 || req.Highlight != nil {
// Size + From => number of hits
estimate += (req.Size + req.From) * documentEmptySize
}
return uint64(estimate)
}
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// SearchInContext executes a search request operation within the provided
// Context. Returns a SearchResult object or an error.
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func (i *indexImpl) SearchInContext(ctx context.Context, req *SearchRequest) (sr *SearchResult, err error) {
i.mutex.RLock()
defer i.mutex.RUnlock()
searchStart := time.Now()
if !i.open {
return nil, ErrorIndexClosed
}
var reverseQueryExecution bool
if req.SearchBefore != nil {
reverseQueryExecution = true
req.Sort.Reverse()
req.SearchAfter = req.SearchBefore
req.SearchBefore = nil
}
var coll *collector.TopNCollector
if req.SearchAfter != nil {
coll = collector.NewTopNCollectorAfter(req.Size, req.Sort, req.SearchAfter)
} else {
coll = collector.NewTopNCollector(req.Size, req.From, req.Sort)
}
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// open a reader for this search
indexReader, err := i.i.Reader()
if err != nil {
return nil, fmt.Errorf("error opening index reader %v", err)
}
defer func() {
if cerr := indexReader.Close(); err == nil && cerr != nil {
err = cerr
}
}()
searcher, err := req.Query.Searcher(indexReader, i.m, search.SearcherOptions{
Explain: req.Explain,
IncludeTermVectors: req.IncludeLocations || req.Highlight != nil,
Score: req.Score,
})
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if err != nil {
return nil, err
}
defer func() {
if serr := searcher.Close(); err == nil && serr != nil {
err = serr
}
}()
if req.Facets != nil {
facetsBuilder := search.NewFacetsBuilder(indexReader)
for facetName, facetRequest := range req.Facets {
if facetRequest.NumericRanges != nil {
// build numeric range facet
facetBuilder := facet.NewNumericFacetBuilder(facetRequest.Field, facetRequest.Size)
for _, nr := range facetRequest.NumericRanges {
facetBuilder.AddRange(nr.Name, nr.Min, nr.Max)
}
facetsBuilder.Add(facetName, facetBuilder)
} else if facetRequest.DateTimeRanges != nil {
// build date range facet
facetBuilder := facet.NewDateTimeFacetBuilder(facetRequest.Field, facetRequest.Size)
dateTimeParser := i.m.DateTimeParserNamed("")
for _, dr := range facetRequest.DateTimeRanges {
start, end := dr.ParseDates(dateTimeParser)
facetBuilder.AddRange(dr.Name, start, end)
}
facetsBuilder.Add(facetName, facetBuilder)
} else {
// build terms facet
facetBuilder := facet.NewTermsFacetBuilder(facetRequest.Field, facetRequest.Size)
facetsBuilder.Add(facetName, facetBuilder)
}
}
coll.SetFacetsBuilder(facetsBuilder)
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}
memNeeded := memNeededForSearch(req, searcher, coll)
if cb := ctx.Value(SearchQueryStartCallbackKey); cb != nil {
if cbF, ok := cb.(SearchQueryStartCallbackFn); ok {
err = cbF(memNeeded)
}
}
if err != nil {
return nil, err
}
if cb := ctx.Value(SearchQueryEndCallbackKey); cb != nil {
if cbF, ok := cb.(SearchQueryEndCallbackFn); ok {
defer func() {
_ = cbF(memNeeded)
}()
}
}
err = coll.Collect(ctx, searcher, indexReader)
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if err != nil {
return nil, err
}
hits := coll.Results()
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var highlighter highlight.Highlighter
if req.Highlight != nil {
// get the right highlighter
highlighter, err = Config.Cache.HighlighterNamed(Config.DefaultHighlighter)
if err != nil {
return nil, err
}
if req.Highlight.Style != nil {
highlighter, err = Config.Cache.HighlighterNamed(*req.Highlight.Style)
if err != nil {
return nil, err
}
}
if highlighter == nil {
return nil, fmt.Errorf("no highlighter named `%s` registered", *req.Highlight.Style)
}
}
for _, hit := range hits {
if i.name != "" {
hit.Index = i.name
}
err = LoadAndHighlightFields(hit, req, i.name, indexReader, highlighter)
if err != nil {
return nil, err
}
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}
atomic.AddUint64(&i.stats.searches, 1)
searchDuration := time.Since(searchStart)
atomic.AddUint64(&i.stats.searchTime, uint64(searchDuration))
if Config.SlowSearchLogThreshold > 0 &&
searchDuration > Config.SlowSearchLogThreshold {
logger.Printf("slow search took %s - %v", searchDuration, req)
}
if reverseQueryExecution {
// reverse the sort back to the original
req.Sort.Reverse()
// resort using the original order
mhs := newSearchHitSorter(req.Sort, hits)
req.SortFunc()(mhs)
// reset request
req.SearchBefore = req.SearchAfter
req.SearchAfter = nil
}
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return &SearchResult{
Status: &SearchStatus{
Total: 1,
Successful: 1,
},
Request: req,
Hits: hits,
Total: coll.Total(),
MaxScore: coll.MaxScore(),
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Took: searchDuration,
Facets: coll.FacetResults(),
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}, nil
}
func LoadAndHighlightFields(hit *search.DocumentMatch, req *SearchRequest,
indexName string, r index.IndexReader,
highlighter highlight.Highlighter) error {
if len(req.Fields) > 0 || highlighter != nil {
doc, err := r.Document(hit.ID)
if err == nil && doc != nil {
if len(req.Fields) > 0 {
fieldsToLoad := deDuplicate(req.Fields)
for _, f := range fieldsToLoad {
doc.VisitFields(func(docF index.Field) {
if f == "*" || docF.Name() == f {
var value interface{}
switch docF := docF.(type) {
case index.TextField:
value = docF.Text()
case index.NumericField:
num, err := docF.Number()
if err == nil {
value = num
}
case index.DateTimeField:
datetime, err := docF.DateTime()
if err == nil {
value = datetime.Format(time.RFC3339)
}
case index.BooleanField:
boolean, err := docF.Boolean()
if err == nil {
value = boolean
}
case index.GeoPointField:
lon, err := docF.Lon()
if err == nil {
lat, err := docF.Lat()
if err == nil {
value = []float64{lon, lat}
}
}
}
if value != nil {
hit.AddFieldValue(docF.Name(), value)
}
}
})
}
}
if highlighter != nil {
highlightFields := req.Highlight.Fields
if highlightFields == nil {
// add all fields with matches
highlightFields = make([]string, 0, len(hit.Locations))
for k := range hit.Locations {
highlightFields = append(highlightFields, k)
}
}
for _, hf := range highlightFields {
highlighter.BestFragmentsInField(hit, doc, hf, 1)
}
}
} else if doc == nil {
// unexpected case, a doc ID that was found as a search hit
// was unable to be found during document lookup
return ErrorIndexReadInconsistency
}
}
return nil
}
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// Fields returns the name of all the fields this
// Index has operated on.
func (i *indexImpl) Fields() (fields []string, err error) {
i.mutex.RLock()
defer i.mutex.RUnlock()
if !i.open {
return nil, ErrorIndexClosed
}
indexReader, err := i.i.Reader()
if err != nil {
return nil, err
}
defer func() {
if cerr := indexReader.Close(); err == nil && cerr != nil {
err = cerr
}
}()
fields, err = indexReader.Fields()
if err != nil {
return nil, err
}
return fields, nil
}
func (i *indexImpl) FieldDict(field string) (index.FieldDict, error) {
i.mutex.RLock()
if !i.open {
i.mutex.RUnlock()
return nil, ErrorIndexClosed
}
indexReader, err := i.i.Reader()
if err != nil {
i.mutex.RUnlock()
return nil, err
}
fieldDict, err := indexReader.FieldDict(field)
if err != nil {
i.mutex.RUnlock()
return nil, err
}
return &indexImplFieldDict{
index: i,
indexReader: indexReader,
fieldDict: fieldDict,
}, nil
}
func (i *indexImpl) FieldDictRange(field string, startTerm []byte, endTerm []byte) (index.FieldDict, error) {
i.mutex.RLock()
if !i.open {
i.mutex.RUnlock()
return nil, ErrorIndexClosed
}
indexReader, err := i.i.Reader()
if err != nil {
i.mutex.RUnlock()
return nil, err
}
fieldDict, err := indexReader.FieldDictRange(field, startTerm, endTerm)
if err != nil {
i.mutex.RUnlock()
return nil, err
}
return &indexImplFieldDict{
index: i,
indexReader: indexReader,
fieldDict: fieldDict,
}, nil
}
func (i *indexImpl) FieldDictPrefix(field string, termPrefix []byte) (index.FieldDict, error) {
i.mutex.RLock()
if !i.open {
i.mutex.RUnlock()
return nil, ErrorIndexClosed
}
indexReader, err := i.i.Reader()
if err != nil {
i.mutex.RUnlock()
return nil, err
}
fieldDict, err := indexReader.FieldDictPrefix(field, termPrefix)
if err != nil {
i.mutex.RUnlock()
return nil, err
}
return &indexImplFieldDict{
index: i,
indexReader: indexReader,
fieldDict: fieldDict,
}, nil
}
func (i *indexImpl) Close() error {
i.mutex.Lock()
defer i.mutex.Unlock()
indexStats.UnRegister(i)
i.open = false
return i.i.Close()
}
func (i *indexImpl) Stats() *IndexStat {
return i.stats
}
func (i *indexImpl) StatsMap() map[string]interface{} {
return i.stats.statsMap()
}
func (i *indexImpl) GetInternal(key []byte) (val []byte, err error) {
i.mutex.RLock()
defer i.mutex.RUnlock()
if !i.open {
return nil, ErrorIndexClosed
}
reader, err := i.i.Reader()
if err != nil {
return nil, err
}
defer func() {
if cerr := reader.Close(); err == nil && cerr != nil {
err = cerr
}
}()
val, err = reader.GetInternal(key)
if err != nil {
return nil, err
}
return val, nil
}
func (i *indexImpl) SetInternal(key, val []byte) error {
i.mutex.RLock()
defer i.mutex.RUnlock()
if !i.open {
return ErrorIndexClosed
}
return i.i.SetInternal(key, val)
}
func (i *indexImpl) DeleteInternal(key []byte) error {
i.mutex.RLock()
defer i.mutex.RUnlock()
if !i.open {
return ErrorIndexClosed
}
return i.i.DeleteInternal(key)
}
// NewBatch creates a new empty batch.
func (i *indexImpl) NewBatch() *Batch {
return &Batch{
index: i,
internal: index.NewBatch(),
}
}
func (i *indexImpl) Name() string {
return i.name
}
func (i *indexImpl) SetName(name string) {
indexStats.UnRegister(i)
i.name = name
indexStats.Register(i)
}
type indexImplFieldDict struct {
index *indexImpl
indexReader index.IndexReader
fieldDict index.FieldDict
}
func (f *indexImplFieldDict) Next() (*index.DictEntry, error) {
return f.fieldDict.Next()
}
func (f *indexImplFieldDict) Close() error {
defer f.index.mutex.RUnlock()
err := f.fieldDict.Close()
if err != nil {
return err
}
return f.indexReader.Close()
}
// helper function to remove duplicate entries from slice of strings
func deDuplicate(fields []string) []string {
entries := make(map[string]struct{})
ret := []string{}
for _, entry := range fields {
if _, exists := entries[entry]; !exists {
entries[entry] = struct{}{}
ret = append(ret, entry)
}
}
return ret
}
type searchHitSorter struct {
hits search.DocumentMatchCollection
sort search.SortOrder
cachedScoring []bool
cachedDesc []bool
}
func newSearchHitSorter(sort search.SortOrder, hits search.DocumentMatchCollection) *searchHitSorter {
return &searchHitSorter{
sort: sort,
hits: hits,
cachedScoring: sort.CacheIsScore(),
cachedDesc: sort.CacheDescending(),
}
}
func (m *searchHitSorter) Len() int { return len(m.hits) }
func (m *searchHitSorter) Swap(i, j int) { m.hits[i], m.hits[j] = m.hits[j], m.hits[i] }
func (m *searchHitSorter) Less(i, j int) bool {
c := m.sort.Compare(m.cachedScoring, m.cachedDesc, m.hits[i], m.hits[j])
return c < 0
}