5a035dc9aa
The zap SegmentBase struct is a refactoring of the zap Segment into the subset of fields that are needed for read-only ops, without any persistence related info. This allows us to use zap's optimized data encoding as scorch's in-memory segments. The zap Segment struct now embeds a zap SegmentBase struct, and layers on persistence. Both the zap Segment and zap SegmentBase implement scorch's Segment interface.
307 lines
9.3 KiB
Go
307 lines
9.3 KiB
Go
// Copyright (c) 2017 Couchbase, Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package mem
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import (
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"math"
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"sort"
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"github.com/RoaringBitmap/roaring"
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"github.com/blevesearch/bleve/analysis"
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"github.com/blevesearch/bleve/document"
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"github.com/blevesearch/bleve/index"
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)
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// NewFromAnalyzedDocs places the analyzed document mutations into a new segment
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func NewFromAnalyzedDocs(results []*index.AnalysisResult) *Segment {
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s := New()
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// ensure that _id field get fieldID 0
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s.getOrDefineField("_id")
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// fill Dicts/DictKeys and preallocate memory
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s.initializeDict(results)
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// walk each doc
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for _, result := range results {
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s.processDocument(result)
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}
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// go back and sort the dictKeys
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for _, dict := range s.DictKeys {
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sort.Strings(dict)
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}
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// compute memory usage of segment
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s.updateSizeInBytes()
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// professional debugging
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//
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// log.Printf("fields: %v\n", s.FieldsMap)
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// log.Printf("fieldsInv: %v\n", s.FieldsInv)
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// log.Printf("fieldsLoc: %v\n", s.FieldsLoc)
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// log.Printf("dicts: %v\n", s.Dicts)
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// log.Printf("dict keys: %v\n", s.DictKeys)
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// for i, posting := range s.Postings {
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// log.Printf("posting %d: %v\n", i, posting)
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// }
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// for i, freq := range s.Freqs {
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// log.Printf("freq %d: %v\n", i, freq)
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// }
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// for i, norm := range s.Norms {
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// log.Printf("norm %d: %v\n", i, norm)
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// }
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// for i, field := range s.Locfields {
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// log.Printf("field %d: %v\n", i, field)
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// }
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// for i, start := range s.Locstarts {
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// log.Printf("start %d: %v\n", i, start)
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// }
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// for i, end := range s.Locends {
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// log.Printf("end %d: %v\n", i, end)
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// }
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// for i, pos := range s.Locpos {
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// log.Printf("pos %d: %v\n", i, pos)
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// }
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// for i, apos := range s.Locarraypos {
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// log.Printf("apos %d: %v\n", i, apos)
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// }
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// log.Printf("stored: %v\n", s.Stored)
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// log.Printf("stored types: %v\n", s.StoredTypes)
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// log.Printf("stored pos: %v\n", s.StoredPos)
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return s
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}
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// fill Dicts/DictKeys and preallocate memory for postings
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func (s *Segment) initializeDict(results []*index.AnalysisResult) {
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var numPostingsLists int
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numTermsPerPostingsList := make([]int, 0, 64) // Keyed by postings list id.
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numLocsPerPostingsList := make([]int, 0, 64) // Keyed by postings list id.
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var numTokenFrequencies int
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var totLocs int
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processField := func(fieldID uint16, tfs analysis.TokenFrequencies) {
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for term, tf := range tfs {
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pidPlus1, exists := s.Dicts[fieldID][term]
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if !exists {
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numPostingsLists++
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pidPlus1 = uint64(numPostingsLists)
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s.Dicts[fieldID][term] = pidPlus1
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s.DictKeys[fieldID] = append(s.DictKeys[fieldID], term)
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numTermsPerPostingsList = append(numTermsPerPostingsList, 0)
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numLocsPerPostingsList = append(numLocsPerPostingsList, 0)
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}
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pid := pidPlus1 - 1
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numTermsPerPostingsList[pid] += 1
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numLocsPerPostingsList[pid] += len(tf.Locations)
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totLocs += len(tf.Locations)
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}
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numTokenFrequencies += len(tfs)
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}
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for _, result := range results {
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// walk each composite field
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for _, field := range result.Document.CompositeFields {
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fieldID := uint16(s.getOrDefineField(field.Name()))
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_, tf := field.Analyze()
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processField(fieldID, tf)
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}
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// walk each field
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for i, field := range result.Document.Fields {
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fieldID := uint16(s.getOrDefineField(field.Name()))
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tf := result.Analyzed[i]
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processField(fieldID, tf)
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}
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}
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s.Postings = make([]*roaring.Bitmap, numPostingsLists)
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for i := 0; i < numPostingsLists; i++ {
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s.Postings[i] = roaring.New()
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}
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s.PostingsLocs = make([]*roaring.Bitmap, numPostingsLists)
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for i := 0; i < numPostingsLists; i++ {
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s.PostingsLocs[i] = roaring.New()
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}
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// Preallocate big, contiguous backing arrays.
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auint64Backing := make([][]uint64, numPostingsLists*4+totLocs) // For Freqs, Locstarts, Locends, Locpos, sub-Locarraypos.
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uint64Backing := make([]uint64, numTokenFrequencies+totLocs*3) // For sub-Freqs, sub-Locstarts, sub-Locends, sub-Locpos.
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float32Backing := make([]float32, numTokenFrequencies) // For sub-Norms.
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uint16Backing := make([]uint16, totLocs) // For sub-Locfields.
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// Point top-level slices to the backing arrays.
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s.Freqs = auint64Backing[0:numPostingsLists]
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auint64Backing = auint64Backing[numPostingsLists:]
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s.Norms = make([][]float32, numPostingsLists)
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s.Locfields = make([][]uint16, numPostingsLists)
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s.Locstarts = auint64Backing[0:numPostingsLists]
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auint64Backing = auint64Backing[numPostingsLists:]
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s.Locends = auint64Backing[0:numPostingsLists]
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auint64Backing = auint64Backing[numPostingsLists:]
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s.Locpos = auint64Backing[0:numPostingsLists]
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auint64Backing = auint64Backing[numPostingsLists:]
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s.Locarraypos = make([][][]uint64, numPostingsLists)
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// Point sub-slices to the backing arrays.
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for pid, numTerms := range numTermsPerPostingsList {
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s.Freqs[pid] = uint64Backing[0:0]
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uint64Backing = uint64Backing[numTerms:]
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s.Norms[pid] = float32Backing[0:0]
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float32Backing = float32Backing[numTerms:]
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}
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for pid, numLocs := range numLocsPerPostingsList {
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s.Locfields[pid] = uint16Backing[0:0]
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uint16Backing = uint16Backing[numLocs:]
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s.Locstarts[pid] = uint64Backing[0:0]
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uint64Backing = uint64Backing[numLocs:]
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s.Locends[pid] = uint64Backing[0:0]
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uint64Backing = uint64Backing[numLocs:]
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s.Locpos[pid] = uint64Backing[0:0]
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uint64Backing = uint64Backing[numLocs:]
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s.Locarraypos[pid] = auint64Backing[0:0]
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auint64Backing = auint64Backing[numLocs:]
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}
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}
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func (s *Segment) processDocument(result *index.AnalysisResult) {
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// used to collate information across fields
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docMap := make(map[uint16]analysis.TokenFrequencies, len(s.FieldsMap))
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fieldLens := make(map[uint16]int, len(s.FieldsMap))
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docNum := uint64(s.addDocument())
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processField := func(field uint16, name string, l int, tf analysis.TokenFrequencies) {
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fieldLens[field] += l
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if existingFreqs, ok := docMap[field]; ok {
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existingFreqs.MergeAll(name, tf)
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} else {
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docMap[field] = tf
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}
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}
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storeField := func(docNum uint64, field uint16, typ byte, val []byte, pos []uint64) {
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s.Stored[docNum][field] = append(s.Stored[docNum][field], val)
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s.StoredTypes[docNum][field] = append(s.StoredTypes[docNum][field], typ)
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s.StoredPos[docNum][field] = append(s.StoredPos[docNum][field], pos)
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}
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// walk each composite field
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for _, field := range result.Document.CompositeFields {
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fieldID := uint16(s.getOrDefineField(field.Name()))
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l, tf := field.Analyze()
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processField(fieldID, field.Name(), l, tf)
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}
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// walk each field
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for i, field := range result.Document.Fields {
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fieldID := uint16(s.getOrDefineField(field.Name()))
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l := result.Length[i]
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tf := result.Analyzed[i]
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processField(fieldID, field.Name(), l, tf)
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if field.Options().IsStored() {
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storeField(docNum, fieldID, encodeFieldType(field), field.Value(), field.ArrayPositions())
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}
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if field.Options().IncludeDocValues() {
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s.DocValueFields[fieldID] = true
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}
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}
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// now that its been rolled up into docMap, walk that
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for fieldID, tokenFrequencies := range docMap {
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for term, tokenFreq := range tokenFrequencies {
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pid := s.Dicts[fieldID][term] - 1
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bs := s.Postings[pid]
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bs.AddInt(int(docNum))
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s.Freqs[pid] = append(s.Freqs[pid], uint64(tokenFreq.Frequency()))
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s.Norms[pid] = append(s.Norms[pid], float32(1.0/math.Sqrt(float64(fieldLens[fieldID]))))
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locationBS := s.PostingsLocs[pid]
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if len(tokenFreq.Locations) > 0 {
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locationBS.AddInt(int(docNum))
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for _, loc := range tokenFreq.Locations {
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var locf = fieldID
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if loc.Field != "" {
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locf = uint16(s.getOrDefineField(loc.Field))
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}
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s.Locfields[pid] = append(s.Locfields[pid], locf)
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s.Locstarts[pid] = append(s.Locstarts[pid], uint64(loc.Start))
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s.Locends[pid] = append(s.Locends[pid], uint64(loc.End))
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s.Locpos[pid] = append(s.Locpos[pid], uint64(loc.Position))
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if len(loc.ArrayPositions) > 0 {
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s.Locarraypos[pid] = append(s.Locarraypos[pid], loc.ArrayPositions)
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} else {
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s.Locarraypos[pid] = append(s.Locarraypos[pid], nil)
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}
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}
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}
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}
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}
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}
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func (s *Segment) getOrDefineField(name string) int {
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fieldIDPlus1, ok := s.FieldsMap[name]
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if !ok {
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fieldIDPlus1 = uint16(len(s.FieldsInv) + 1)
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s.FieldsMap[name] = fieldIDPlus1
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s.FieldsInv = append(s.FieldsInv, name)
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s.Dicts = append(s.Dicts, make(map[string]uint64))
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s.DictKeys = append(s.DictKeys, make([]string, 0))
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}
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return int(fieldIDPlus1 - 1)
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}
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func (s *Segment) addDocument() int {
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docNum := len(s.Stored)
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s.Stored = append(s.Stored, map[uint16][][]byte{})
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s.StoredTypes = append(s.StoredTypes, map[uint16][]byte{})
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s.StoredPos = append(s.StoredPos, map[uint16][][]uint64{})
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return docNum
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}
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func encodeFieldType(f document.Field) byte {
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fieldType := byte('x')
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switch f.(type) {
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case *document.TextField:
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fieldType = 't'
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case *document.NumericField:
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fieldType = 'n'
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case *document.DateTimeField:
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fieldType = 'd'
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case *document.BooleanField:
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fieldType = 'b'
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case *document.GeoPointField:
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fieldType = 'g'
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case *document.CompositeField:
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fieldType = 'c'
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}
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return fieldType
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}
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