// Copyright 2012-present Oliver Eilhard. All rights reserved. // Use of this source code is governed by a MIT-license. // See http://olivere.mit-license.org/license.txt for details. package elastic import ( "fmt" ) // SearchSource enables users to build the search source. // It resembles the SearchSourceBuilder in Elasticsearch. type SearchSource struct { query Query // query postQuery Query // post_filter sliceQuery Query // slice from int // from size int // size explain *bool // explain version *bool // version seqNoAndPrimaryTerm *bool // seq_no_primary_term sorters []Sorter // sort trackScores *bool // track_scores trackTotalHits interface{} // track_total_hits searchAfterSortValues []interface{} // search_after minScore *float64 // min_score timeout string // timeout terminateAfter *int // terminate_after storedFieldNames []string // stored_fields docvalueFields DocvalueFields // docvalue_fields scriptFields []*ScriptField // script_fields fetchSourceContext *FetchSourceContext // _source aggregations map[string]Aggregation // aggregations / aggs highlight *Highlight // highlight globalSuggestText string suggesters []Suggester // suggest rescores []*Rescore // rescore defaultRescoreWindowSize *int indexBoosts map[string]float64 // indices_boost stats []string // stats innerHits map[string]*InnerHit collapse *CollapseBuilder // collapse profile bool // profile // TODO extBuilders []SearchExtBuilder // ext } // NewSearchSource initializes a new SearchSource. func NewSearchSource() *SearchSource { return &SearchSource{ from: -1, size: -1, aggregations: make(map[string]Aggregation), indexBoosts: make(map[string]float64), innerHits: make(map[string]*InnerHit), } } // Query sets the query to use with this search source. func (s *SearchSource) Query(query Query) *SearchSource { s.query = query return s } // Profile specifies that this search source should activate the // Profile API for queries made on it. func (s *SearchSource) Profile(profile bool) *SearchSource { s.profile = profile return s } // PostFilter will be executed after the query has been executed and // only affects the search hits, not the aggregations. // This filter is always executed as the last filtering mechanism. func (s *SearchSource) PostFilter(postFilter Query) *SearchSource { s.postQuery = postFilter return s } // Slice allows partitioning the documents in multiple slices. // It is e.g. used to slice a scroll operation, supported in // Elasticsearch 5.0 or later. // See https://www.elastic.co/guide/en/elasticsearch/reference/7.0/search-request-scroll.html#sliced-scroll // for details. func (s *SearchSource) Slice(sliceQuery Query) *SearchSource { s.sliceQuery = sliceQuery return s } // From index to start the search from. Defaults to 0. func (s *SearchSource) From(from int) *SearchSource { s.from = from return s } // Size is the number of search hits to return. Defaults to 10. func (s *SearchSource) Size(size int) *SearchSource { s.size = size return s } // MinScore sets the minimum score below which docs will be filtered out. func (s *SearchSource) MinScore(minScore float64) *SearchSource { s.minScore = &minScore return s } // Explain indicates whether each search hit should be returned with // an explanation of the hit (ranking). func (s *SearchSource) Explain(explain bool) *SearchSource { s.explain = &explain return s } // Version indicates whether each search hit should be returned with // a version associated to it. func (s *SearchSource) Version(version bool) *SearchSource { s.version = &version return s } // SeqNoAndPrimaryTerm indicates whether SearchHits should be returned with the // sequence number and primary term of the last modification of the document. func (s *SearchSource) SeqNoAndPrimaryTerm(enabled bool) *SearchSource { s.seqNoAndPrimaryTerm = &enabled return s } // Timeout controls how long a search is allowed to take, e.g. "1s" or "500ms". func (s *SearchSource) Timeout(timeout string) *SearchSource { s.timeout = timeout return s } // TimeoutInMillis controls how many milliseconds a search is allowed // to take before it is canceled. func (s *SearchSource) TimeoutInMillis(timeoutInMillis int) *SearchSource { s.timeout = fmt.Sprintf("%dms", timeoutInMillis) return s } // TerminateAfter specifies the maximum number of documents to collect for // each shard, upon reaching which the query execution will terminate early. func (s *SearchSource) TerminateAfter(terminateAfter int) *SearchSource { s.terminateAfter = &terminateAfter return s } // Sort adds a sort order. func (s *SearchSource) Sort(field string, ascending bool) *SearchSource { s.sorters = append(s.sorters, SortInfo{Field: field, Ascending: ascending}) return s } // SortWithInfo adds a sort order. func (s *SearchSource) SortWithInfo(info SortInfo) *SearchSource { s.sorters = append(s.sorters, info) return s } // SortBy adds a sort order. func (s *SearchSource) SortBy(sorter ...Sorter) *SearchSource { s.sorters = append(s.sorters, sorter...) return s } func (s *SearchSource) hasSort() bool { return len(s.sorters) > 0 } // TrackScores is applied when sorting and controls if scores will be // tracked as well. Defaults to false. func (s *SearchSource) TrackScores(trackScores bool) *SearchSource { s.trackScores = &trackScores return s } // TrackTotalHits controls how the total number of hits should be tracked. // Defaults to 10000 which will count the total hit accurately up to 10,000 hits. // // See https://www.elastic.co/guide/en/elasticsearch/reference/7.0/search-request-track-total-hits.html // for details. func (s *SearchSource) TrackTotalHits(trackTotalHits interface{}) *SearchSource { s.trackTotalHits = trackTotalHits return s } // SearchAfter allows a different form of pagination by using a live cursor, // using the results of the previous page to help the retrieval of the next. // // See https://www.elastic.co/guide/en/elasticsearch/reference/7.0/search-request-search-after.html func (s *SearchSource) SearchAfter(sortValues ...interface{}) *SearchSource { s.searchAfterSortValues = append(s.searchAfterSortValues, sortValues...) return s } // Aggregation adds an aggreation to perform as part of the search. func (s *SearchSource) Aggregation(name string, aggregation Aggregation) *SearchSource { s.aggregations[name] = aggregation return s } // DefaultRescoreWindowSize sets the rescore window size for rescores // that don't specify their window. func (s *SearchSource) DefaultRescoreWindowSize(defaultRescoreWindowSize int) *SearchSource { s.defaultRescoreWindowSize = &defaultRescoreWindowSize return s } // Highlight adds highlighting to the search. func (s *SearchSource) Highlight(highlight *Highlight) *SearchSource { s.highlight = highlight return s } // Highlighter returns the highlighter. func (s *SearchSource) Highlighter() *Highlight { if s.highlight == nil { s.highlight = NewHighlight() } return s.highlight } // GlobalSuggestText defines the global text to use with all suggesters. // This avoids repetition. func (s *SearchSource) GlobalSuggestText(text string) *SearchSource { s.globalSuggestText = text return s } // Suggester adds a suggester to the search. func (s *SearchSource) Suggester(suggester Suggester) *SearchSource { s.suggesters = append(s.suggesters, suggester) return s } // Rescorer adds a rescorer to the search. func (s *SearchSource) Rescorer(rescore *Rescore) *SearchSource { s.rescores = append(s.rescores, rescore) return s } // ClearRescorers removes all rescorers from the search. func (s *SearchSource) ClearRescorers() *SearchSource { s.rescores = make([]*Rescore, 0) return s } // FetchSource indicates whether the response should contain the stored // _source for every hit. func (s *SearchSource) FetchSource(fetchSource bool) *SearchSource { if s.fetchSourceContext == nil { s.fetchSourceContext = NewFetchSourceContext(fetchSource) } else { s.fetchSourceContext.SetFetchSource(fetchSource) } return s } // FetchSourceContext indicates how the _source should be fetched. func (s *SearchSource) FetchSourceContext(fetchSourceContext *FetchSourceContext) *SearchSource { s.fetchSourceContext = fetchSourceContext return s } // FetchSourceIncludeExclude specifies that _source should be returned // with each hit, where "include" and "exclude" serve as a simple wildcard // matcher that gets applied to its fields // (e.g. include := []string{"obj1.*","obj2.*"}, exclude := []string{"description.*"}). func (s *SearchSource) FetchSourceIncludeExclude(include, exclude []string) *SearchSource { s.fetchSourceContext = NewFetchSourceContext(true). Include(include...). Exclude(exclude...) return s } // NoStoredFields indicates that no fields should be loaded, resulting in only // id and type to be returned per field. func (s *SearchSource) NoStoredFields() *SearchSource { s.storedFieldNames = []string{} return s } // StoredField adds a single field to load and return (note, must be stored) as // part of the search request. If none are specified, the source of the // document will be returned. func (s *SearchSource) StoredField(storedFieldName string) *SearchSource { s.storedFieldNames = append(s.storedFieldNames, storedFieldName) return s } // StoredFields sets the fields to load and return as part of the search request. // If none are specified, the source of the document will be returned. func (s *SearchSource) StoredFields(storedFieldNames ...string) *SearchSource { s.storedFieldNames = append(s.storedFieldNames, storedFieldNames...) return s } // DocvalueField adds a single field to load from the field data cache // and return as part of the search request. func (s *SearchSource) DocvalueField(fieldDataField string) *SearchSource { s.docvalueFields = append(s.docvalueFields, DocvalueField{Field: fieldDataField}) return s } // DocvalueField adds a single docvalue field to load from the field data cache // and return as part of the search request. func (s *SearchSource) DocvalueFieldWithFormat(fieldDataFieldWithFormat DocvalueField) *SearchSource { s.docvalueFields = append(s.docvalueFields, fieldDataFieldWithFormat) return s } // DocvalueFields adds one or more fields to load from the field data cache // and return as part of the search request. func (s *SearchSource) DocvalueFields(docvalueFields ...string) *SearchSource { for _, f := range docvalueFields { s.docvalueFields = append(s.docvalueFields, DocvalueField{Field: f}) } return s } // DocvalueFields adds one or more docvalue fields to load from the field data cache // and return as part of the search request. func (s *SearchSource) DocvalueFieldsWithFormat(docvalueFields ...DocvalueField) *SearchSource { s.docvalueFields = append(s.docvalueFields, docvalueFields...) return s } // ScriptField adds a single script field with the provided script. func (s *SearchSource) ScriptField(scriptField *ScriptField) *SearchSource { s.scriptFields = append(s.scriptFields, scriptField) return s } // ScriptFields adds one or more script fields with the provided scripts. func (s *SearchSource) ScriptFields(scriptFields ...*ScriptField) *SearchSource { s.scriptFields = append(s.scriptFields, scriptFields...) return s } // IndexBoost sets the boost that a specific index will receive when the // query is executed against it. func (s *SearchSource) IndexBoost(index string, boost float64) *SearchSource { s.indexBoosts[index] = boost return s } // Stats group this request will be aggregated under. func (s *SearchSource) Stats(statsGroup ...string) *SearchSource { s.stats = append(s.stats, statsGroup...) return s } // InnerHit adds an inner hit to return with the result. func (s *SearchSource) InnerHit(name string, innerHit *InnerHit) *SearchSource { s.innerHits[name] = innerHit return s } // Collapse adds field collapsing. func (s *SearchSource) Collapse(collapse *CollapseBuilder) *SearchSource { s.collapse = collapse return s } // Source returns the serializable JSON for the source builder. func (s *SearchSource) Source() (interface{}, error) { source := make(map[string]interface{}) if s.from != -1 { source["from"] = s.from } if s.size != -1 { source["size"] = s.size } if s.timeout != "" { source["timeout"] = s.timeout } if s.terminateAfter != nil { source["terminate_after"] = *s.terminateAfter } if s.query != nil { src, err := s.query.Source() if err != nil { return nil, err } source["query"] = src } if s.postQuery != nil { src, err := s.postQuery.Source() if err != nil { return nil, err } source["post_filter"] = src } if s.minScore != nil { source["min_score"] = *s.minScore } if s.version != nil { source["version"] = *s.version } if s.explain != nil { source["explain"] = *s.explain } if s.profile { source["profile"] = s.profile } if s.fetchSourceContext != nil { src, err := s.fetchSourceContext.Source() if err != nil { return nil, err } source["_source"] = src } if s.storedFieldNames != nil { switch len(s.storedFieldNames) { case 1: source["stored_fields"] = s.storedFieldNames[0] default: source["stored_fields"] = s.storedFieldNames } } if len(s.docvalueFields) > 0 { src, err := s.docvalueFields.Source() if err != nil { return nil, err } source["docvalue_fields"] = src } if len(s.scriptFields) > 0 { sfmap := make(map[string]interface{}) for _, scriptField := range s.scriptFields { src, err := scriptField.Source() if err != nil { return nil, err } sfmap[scriptField.FieldName] = src } source["script_fields"] = sfmap } if len(s.sorters) > 0 { var sortarr []interface{} for _, sorter := range s.sorters { src, err := sorter.Source() if err != nil { return nil, err } sortarr = append(sortarr, src) } source["sort"] = sortarr } if v := s.trackScores; v != nil { source["track_scores"] = *v } if v := s.trackTotalHits; v != nil { source["track_total_hits"] = v } if len(s.searchAfterSortValues) > 0 { source["search_after"] = s.searchAfterSortValues } if s.sliceQuery != nil { src, err := s.sliceQuery.Source() if err != nil { return nil, err } source["slice"] = src } if len(s.indexBoosts) > 0 { source["indices_boost"] = s.indexBoosts } if len(s.aggregations) > 0 { aggsMap := make(map[string]interface{}) for name, aggregate := range s.aggregations { src, err := aggregate.Source() if err != nil { return nil, err } aggsMap[name] = src } source["aggregations"] = aggsMap } if s.highlight != nil { src, err := s.highlight.Source() if err != nil { return nil, err } source["highlight"] = src } if len(s.suggesters) > 0 { suggesters := make(map[string]interface{}) for _, s := range s.suggesters { src, err := s.Source(false) if err != nil { return nil, err } suggesters[s.Name()] = src } if s.globalSuggestText != "" { suggesters["text"] = s.globalSuggestText } source["suggest"] = suggesters } if len(s.rescores) > 0 { // Strip empty rescores from request var rescores []*Rescore for _, r := range s.rescores { if !r.IsEmpty() { rescores = append(rescores, r) } } if len(rescores) == 1 { rescores[0].defaultRescoreWindowSize = s.defaultRescoreWindowSize src, err := rescores[0].Source() if err != nil { return nil, err } source["rescore"] = src } else { var slice []interface{} for _, r := range rescores { r.defaultRescoreWindowSize = s.defaultRescoreWindowSize src, err := r.Source() if err != nil { return nil, err } slice = append(slice, src) } source["rescore"] = slice } } if len(s.stats) > 0 { source["stats"] = s.stats } // TODO ext builders if s.collapse != nil { src, err := s.collapse.Source() if err != nil { return nil, err } source["collapse"] = src } if v := s.seqNoAndPrimaryTerm; v != nil { source["seq_no_primary_term"] = *v } if len(s.innerHits) > 0 { // Top-level inner hits // See http://www.elastic.co/guide/en/elasticsearch/reference/1.5/search-request-inner-hits.html#top-level-inner-hits // "inner_hits": { // "": { // "": { // "": { // , // [,"inner_hits" : { []+ } ]? // } // } // }, // [,"" : { ... } ]* // } m := make(map[string]interface{}) for name, hit := range s.innerHits { if hit.path != "" { src, err := hit.Source() if err != nil { return nil, err } path := make(map[string]interface{}) path[hit.path] = src m[name] = map[string]interface{}{ "path": path, } } else if hit.typ != "" { src, err := hit.Source() if err != nil { return nil, err } typ := make(map[string]interface{}) typ[hit.typ] = src m[name] = map[string]interface{}{ "type": typ, } } else { // TODO the Java client throws here, because either path or typ must be specified _ = m } } source["inner_hits"] = m } return source, nil }