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hititer.go
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hititer.go
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// Copyright 2018 Google Inc. All rights reserved.
//
// 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 zoekt
import (
"encoding/binary"
"fmt"
)
// hitIterator finds potential search matches, measured in offsets of
// the concatenation of all documents.
type hitIterator interface {
// Return the first hit, or maxUInt32 if none.
first() uint32
// Skip until past limit. The argument maxUInt32 should be
// treated specially.
next(limit uint32)
// Return how many bytes were read.
updateStats(s *Stats)
}
// distanceHitIterator looks for hits at a fixed distance apart.
type distanceHitIterator struct {
started bool
distance uint32
i1 hitIterator
i2 hitIterator
}
func (i *distanceHitIterator) String() string {
return fmt.Sprintf("dist(%d, %v, %v)", i.distance, i.i1, i.i2)
}
func (i *distanceHitIterator) findNext() {
for {
var p1, p2 uint32
p1 = i.i1.first()
p2 = i.i2.first()
if p1 == maxUInt32 || p2 == maxUInt32 {
i.i1.next(maxUInt32)
break
}
if p1+i.distance < p2 {
i.i1.next(p2 - i.distance - 1)
} else if p1+i.distance > p2 {
i.i2.next(p1 + i.distance - 1)
} else {
break
}
}
}
func (i *distanceHitIterator) first() uint32 {
if !i.started {
i.findNext()
i.started = true
}
return i.i1.first()
}
func (i *distanceHitIterator) updateStats(s *Stats) {
i.i1.updateStats(s)
i.i2.updateStats(s)
}
func (i *distanceHitIterator) next(limit uint32) {
i.i1.next(limit)
l2 := limit + i.distance
if l2 < limit { // overflow.
l2 = maxUInt32
}
i.i2.next(l2)
i.findNext()
}
func (d *indexData) newDistanceTrigramIter(ng1, ng2 ngram, dist uint32, caseSensitive, fileName bool) (hitIterator, error) {
if dist == 0 {
return nil, fmt.Errorf("d == 0")
}
i1, err := d.trigramHitIterator(ng1, caseSensitive, fileName)
if err != nil {
return nil, err
}
i2, err := d.trigramHitIterator(ng2, caseSensitive, fileName)
if err != nil {
return nil, err
}
return &distanceHitIterator{
i1: i1,
i2: i2,
distance: dist,
}, nil
}
func (d *indexData) trigramHitIterator(ng ngram, caseSensitive, fileName bool) (hitIterator, error) {
variants := []ngram{ng}
if !caseSensitive {
variants = generateCaseNgrams(ng)
}
iters := make([]hitIterator, 0, len(variants))
for _, v := range variants {
if fileName {
blob := d.fileNameNgrams[v]
if len(blob) > 0 {
iters = append(iters, newCompressedPostingIterator(blob, v))
}
continue
}
sec := d.ngrams.Get(v)
blob, err := d.readSectionBlob(sec)
if err != nil {
return nil, err
}
if len(blob) > 0 {
iters = append(iters, newCompressedPostingIterator(blob, v))
}
}
if len(iters) == 1 {
return iters[0], nil
}
return &mergingIterator{
iters: iters,
}, nil
}
// inMemoryIterator is hitIterator that goes over an in-memory uint32 posting list.
type inMemoryIterator struct {
postings []uint32
what ngram
}
func (i *inMemoryIterator) String() string {
return fmt.Sprintf("mem(%s):%v", i.what, i.postings)
}
func (i *inMemoryIterator) first() uint32 {
if len(i.postings) > 0 {
return i.postings[0]
}
return maxUInt32
}
func (i *inMemoryIterator) updateStats(s *Stats) {
}
func (i *inMemoryIterator) next(limit uint32) {
if limit == maxUInt32 {
i.postings = nil
}
for len(i.postings) > 0 && i.postings[0] <= limit {
i.postings = i.postings[1:]
}
}
// compressedPostingIterator goes over a delta varint encoded posting
// list.
type compressedPostingIterator struct {
blob, orig []byte
_first uint32
what ngram
}
func newCompressedPostingIterator(b []byte, w ngram) *compressedPostingIterator {
d, sz := binary.Uvarint(b)
return &compressedPostingIterator{
_first: uint32(d),
blob: b[sz:],
orig: b,
what: w,
}
}
func (i *compressedPostingIterator) String() string {
return fmt.Sprintf("compressed(%s, %d, [%d bytes])", i.what, i._first, len(i.blob))
}
func (i *compressedPostingIterator) first() uint32 {
return i._first
}
func (i *compressedPostingIterator) next(limit uint32) {
if limit == maxUInt32 {
i.blob = nil
i._first = maxUInt32
return
}
for i._first <= limit && len(i.blob) > 0 {
delta, sz := binary.Uvarint(i.blob)
i._first += uint32(delta)
i.blob = i.blob[sz:]
}
if i._first <= limit && len(i.blob) == 0 {
i._first = maxUInt32
}
}
func (i *compressedPostingIterator) updateStats(s *Stats) {
s.IndexBytesLoaded += int64(len(i.orig) - len(i.blob))
}
// mergingIterator forms the merge of a set of hitIterators, to
// implement an OR operation at the hit level.
type mergingIterator struct {
iters []hitIterator
}
func (i *mergingIterator) String() string {
return fmt.Sprintf("merge:%v", i.iters)
}
func (i *mergingIterator) updateStats(s *Stats) {
for _, j := range i.iters {
j.updateStats(s)
}
}
func (i *mergingIterator) first() uint32 {
r := uint32(maxUInt32)
for _, j := range i.iters {
f := j.first()
if f < r {
r = f
}
}
return r
}
func (i *mergingIterator) next(limit uint32) {
for _, j := range i.iters {
j.next(limit)
}
}