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matchiter.go
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matchiter.go
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// Copyright 2016 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 (
"bytes"
"fmt"
)
// candidateMatch is a candidate match for a substring.
//
// Note: a lot of these can be in memory, so think about fieldalignment when
// modify the fields of this structure.
type candidateMatch struct {
substrBytes []byte
substrLowered []byte
scoreWeight float64
file uint32
symbolIdx uint32
// Offsets are relative to the start of the filename or file contents.
runeOffset uint32
byteOffset uint32
byteMatchSz uint32
// bools at end for struct field alignment
caseSensitive bool
fileName bool
symbol bool
}
// Matches content against the substring, and populates byteMatchSz on success
func (m *candidateMatch) matchContent(content []byte) bool {
if m.caseSensitive {
comp := bytes.Equal(m.substrBytes, content[m.byteOffset:m.byteOffset+uint32(len(m.substrBytes))])
m.byteMatchSz = uint32(len(m.substrBytes))
return comp
} else {
// It is tempting to try a simple ASCII based
// comparison if possible, but we need more
// information. Simple ASCII chars have unicode upper
// case variants (the ASCII 'k' has the Kelvin symbol
// as upper case variant). We can only degrade to
// ASCII if we are sure that both the corpus and the
// query is ASCII only
sz, ok := caseFoldingEqualsRunes(m.substrLowered, content[m.byteOffset:])
m.byteMatchSz = uint32(sz)
return ok
}
}
// matchIterator is a docIterator that produces candidateMatches for a given document
type matchIterator interface {
docIterator
candidates() []*candidateMatch
// updateStats is called twice. After matchtree construction and after
// searching is done. Implementations must take care to not report
// statistics twice.
updateStats(*Stats)
}
// noMatchTree is both matchIterator and matchTree that matches nothing.
type noMatchTree struct {
Why string
// Stats captures the work done to create the noMatchTree.
Stats Stats
}
func (t *noMatchTree) String() string {
return fmt.Sprintf("not(%q)", t.Why)
}
func (t *noMatchTree) candidates() []*candidateMatch {
return nil
}
func (t *noMatchTree) nextDoc() uint32 {
return maxUInt32
}
func (t *noMatchTree) prepare(uint32) {}
func (t *noMatchTree) matches(cp *contentProvider, cost int, known map[matchTree]bool) matchesState {
return matchesNone
}
func (t *noMatchTree) updateStats(s *Stats) {
s.Add(t.Stats)
t.Stats = Stats{}
}
func (m *candidateMatch) String() string {
return fmt.Sprintf("%d:%d", m.file, m.runeOffset)
}
type ngramDocIterator struct {
leftPad uint32
rightPad uint32
iter hitIterator
ends []uint32
// ngramLookups is how many lookups we did to create this iterator.
ngramLookups int
// mutable
fileIdx uint32
matchCount int
}
// nextFileIndex returns the smallest index j of ends such that
// ends[j] > offset, assuming ends[f] <= offset.
func nextFileIndex(offset, f uint32, ends []uint32) uint32 {
d := uint32(1)
for f < uint32(len(ends)) && ends[f] <= offset {
if f+d < uint32(len(ends)) && ends[f+d] <= offset {
f += d
d *= 2
} else if d > 1 {
d = d/4 + 1
} else {
f++
}
}
return f
}
func (i *ngramDocIterator) nextDoc() uint32 {
i.fileIdx = nextFileIndex(i.iter.first(), i.fileIdx, i.ends)
if i.fileIdx >= uint32(len(i.ends)) {
return maxUInt32
}
return i.fileIdx
}
func (i *ngramDocIterator) String() string {
return fmt.Sprintf("ngram(L=%d,R=%d,%v)", i.leftPad, i.rightPad, i.iter)
}
func (i *ngramDocIterator) prepare(nextDoc uint32) {
var start uint32
if nextDoc > 0 {
start = i.ends[nextDoc-1]
}
if start > 0 {
i.iter.next(start + i.leftPad - 1)
}
i.fileIdx = nextDoc
}
func (i *ngramDocIterator) updateStats(s *Stats) {
i.iter.updateStats(s)
s.NgramMatches += i.matchCount
s.NgramLookups += i.ngramLookups
i.matchCount = 0
i.ngramLookups = 0
}
func (i *ngramDocIterator) candidates() []*candidateMatch {
if i.fileIdx >= uint32(len(i.ends)) {
return nil
}
var fileStart uint32
if i.fileIdx > 0 {
fileStart = i.ends[i.fileIdx-1]
}
fileEnd := i.ends[i.fileIdx]
var candidates []*candidateMatch
for {
p1 := i.iter.first()
if p1 == maxUInt32 || p1 >= i.ends[i.fileIdx] {
break
}
i.iter.next(p1)
if p1 < i.leftPad+fileStart || p1+i.rightPad > fileEnd {
continue
}
candidates = append(candidates, &candidateMatch{
file: uint32(i.fileIdx),
runeOffset: p1 - fileStart - i.leftPad,
})
}
i.matchCount += len(candidates)
return candidates
}