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golang-github-blevesearch-b.../search/searcher/search_phrase_test.go
Daniel Baumann 982828099e
Adding upstream version 2.5.1. 
Signed-off-by: Daniel Baumann <daniel@debian.org>
2025-05-19 00:20:02 +02:00

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// Copyright (c) 2013 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 searcher
import (
"context"
"reflect"
"testing"
"github.com/blevesearch/bleve/v2/search"
index "github.com/blevesearch/bleve_index_api"
)
func TestPhraseSearch(t *testing.T) {
twoDocIndexReader, err := twoDocIndex.Reader()
if err != nil {
t.Error(err)
}
defer func() {
err := twoDocIndexReader.Close()
if err != nil {
t.Fatal(err)
}
}()
soptions := search.SearcherOptions{Explain: true, IncludeTermVectors: true}
phraseSearcher, err := NewPhraseSearcher(context.TODO(), twoDocIndexReader, []string{"angst", "beer"}, 0, false, "desc", 1.0, soptions)
if err != nil {
t.Fatal(err)
}
tests := []struct {
searcher search.Searcher
results []*search.DocumentMatch
locations map[string]map[string][]search.Location
fieldterms [][2]string
}{
{
searcher: phraseSearcher,
results: []*search.DocumentMatch{
{
IndexInternalID: index.IndexInternalID("2"),
Score: 1.0807601687084403,
},
},
locations: map[string]map[string][]search.Location{"desc": {"beer": {{Pos: 2, Start: 6, End: 10}}, "angst": {{Pos: 1, Start: 0, End: 5}}}},
fieldterms: [][2]string{{"desc", "beer"}, {"desc", "angst"}},
},
}
for testIndex, test := range tests {
defer func() {
err := test.searcher.Close()
if err != nil {
t.Fatal(err)
}
}()
ctx := &search.SearchContext{
DocumentMatchPool: search.NewDocumentMatchPool(test.searcher.DocumentMatchPoolSize(), 0),
}
next, err := test.searcher.Next(ctx)
i := 0
for err == nil && next != nil {
next.Complete(nil)
if i < len(test.results) {
if !next.IndexInternalID.Equals(test.results[i].IndexInternalID) {
t.Errorf("expected result %d to have id %s got %s for test %d\n", i, test.results[i].IndexInternalID, next.IndexInternalID, testIndex)
}
if next.Score != test.results[i].Score {
t.Errorf("expected result %d to have score %v got %v for test %d\n", i, test.results[i].Score, next.Score, testIndex)
t.Logf("scoring explanation: %s\n", next.Expl)
}
for _, ft := range test.fieldterms {
locs := next.Locations[ft[0]][ft[1]]
explocs := test.locations[ft[0]][ft[1]]
if len(explocs) != len(locs) {
t.Fatalf("expected result %d to have %d Locations (%#v) but got %d (%#v) for test %d with field %q and term %q\n", i, len(explocs), explocs, len(locs), locs, testIndex, ft[0], ft[1])
}
for ind, exploc := range explocs {
if !reflect.DeepEqual(*locs[ind], exploc) {
t.Errorf("expected result %d to have Location %v got %v for test %d\n", i, exploc, locs[ind], testIndex)
}
}
}
}
ctx.DocumentMatchPool.Put(next)
next, err = test.searcher.Next(ctx)
i++
}
if err != nil {
t.Fatalf("error iterating searcher: %v for test %d", err, testIndex)
}
if len(test.results) != i {
t.Errorf("expected %d results got %d for test %d", len(test.results), i, testIndex)
}
}
}
func TestMultiPhraseSearch(t *testing.T) {
soptions := search.SearcherOptions{Explain: true, IncludeTermVectors: true}
tests := []struct {
phrase [][]string
docids [][]byte
}{
{
phrase: [][]string{{"angst", "what"}, {"beer"}},
docids: [][]byte{[]byte("2")},
},
}
for i, test := range tests {
reader, err := twoDocIndex.Reader()
if err != nil {
t.Error(err)
}
searcher, err := NewMultiPhraseSearcher(context.TODO(), reader, test.phrase, 0, false, "desc", 1.0, soptions)
if err != nil {
t.Error(err)
}
ctx := &search.SearchContext{
DocumentMatchPool: search.NewDocumentMatchPool(searcher.DocumentMatchPoolSize(), 0),
}
next, err := searcher.Next(ctx)
var actualIds [][]byte
for err == nil && next != nil {
actualIds = append(actualIds, next.IndexInternalID)
ctx.DocumentMatchPool.Put(next)
next, err = searcher.Next(ctx)
}
if err != nil {
t.Fatalf("error iterating searcher: %v for test %d", err, i)
}
if !reflect.DeepEqual(test.docids, actualIds) {
t.Fatalf("expected ids: %v, got %v", test.docids, actualIds)
}
err = searcher.Close()
if err != nil {
t.Error(err)
}
err = reader.Close()
if err != nil {
t.Error(err)
}
}
}
func TestFuzzyMultiPhraseSearch(t *testing.T) {
soptions := search.SearcherOptions{Explain: true, IncludeTermVectors: true}
tests := []struct {
mphrase [][]string
docids [][]byte
fuzziness int
prefix int
}{
{
mphrase: [][]string{{"pale", "anger"}, {"best"}, {"colon", "porch"}},
docids: [][]byte{[]byte("2"), []byte("3")},
fuzziness: 2,
},
{
mphrase: [][]string{{"pale", "anger"}, {}, {"colon", "porch", "could"}},
docids: nil,
fuzziness: 1,
},
{
mphrase: [][]string{{"app"}, {"best"}, {"volume"}},
docids: [][]byte{[]byte("3")},
fuzziness: 2,
},
{
mphrase: [][]string{{"anger", "pale", "bar"}, {"beard"}, {}, {}},
docids: [][]byte{[]byte("1"), []byte("2"), []byte("3"), []byte("4")},
fuzziness: 2,
},
{
mphrase: [][]string{{"anger", "pale", "bar"}, {}, {"beard"}, {}},
docids: [][]byte{[]byte("1"), []byte("4")},
fuzziness: 2,
},
}
for i, test := range tests {
reader, err := twoDocIndex.Reader()
if err != nil {
t.Error(err)
}
searcher, err := NewMultiPhraseSearcher(context.TODO(), reader, test.mphrase, test.fuzziness, false, "desc", 1.0, soptions)
if err != nil {
t.Error(err)
}
ctx := &search.SearchContext{
DocumentMatchPool: search.NewDocumentMatchPool(searcher.DocumentMatchPoolSize(), 0),
}
next, err := searcher.Next(ctx)
var actualIds [][]byte
for err == nil && next != nil {
actualIds = append(actualIds, next.IndexInternalID)
ctx.DocumentMatchPool.Put(next)
next, err = searcher.Next(ctx)
}
if err != nil {
t.Fatalf("error iterating searcher: %v for test %d", err, i)
}
if !reflect.DeepEqual(test.docids, actualIds) {
t.Fatalf("expected ids: %v, got %v", test.docids, actualIds)
}
err = searcher.Close()
if err != nil {
t.Error(err)
}
err = reader.Close()
if err != nil {
t.Error(err)
}
}
}
func TestFindPhrasePaths(t *testing.T) {
tests := []struct {
phrase [][]string
tlm search.TermLocationMap
paths []phrasePath
}{
// simplest matching case
{
phrase: [][]string{{"cat"}, {"dog"}},
tlm: search.TermLocationMap{
"cat": search.Locations{
&search.Location{
Pos: 1,
},
},
"dog": search.Locations{
&search.Location{
Pos: 2,
},
},
},
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 1}},
phrasePart{"dog", &search.Location{Pos: 2}},
},
},
},
// second term missing, no match
{
phrase: [][]string{{"cat"}, {"dog"}},
tlm: search.TermLocationMap{
"cat": search.Locations{
&search.Location{
Pos: 1,
},
},
},
paths: nil,
},
// second term exists but in wrong position
{
phrase: [][]string{{"cat"}, {"dog"}},
tlm: search.TermLocationMap{
"cat": search.Locations{
&search.Location{
Pos: 1,
},
},
"dog": search.Locations{
&search.Location{
Pos: 3,
},
},
},
paths: nil,
},
// matches multiple times
{
phrase: [][]string{{"cat"}, {"dog"}},
tlm: search.TermLocationMap{
"cat": search.Locations{
&search.Location{
Pos: 1,
},
&search.Location{
Pos: 8,
},
},
"dog": search.Locations{
&search.Location{
Pos: 2,
},
&search.Location{
Pos: 9,
},
},
},
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 1}},
phrasePart{"dog", &search.Location{Pos: 2}},
},
{
phrasePart{"cat", &search.Location{Pos: 8}},
phrasePart{"dog", &search.Location{Pos: 9}},
},
},
},
// match over gaps
{
phrase: [][]string{{"cat"}, {""}, {"dog"}},
tlm: search.TermLocationMap{
"cat": search.Locations{
&search.Location{
Pos: 1,
},
},
"dog": search.Locations{
&search.Location{
Pos: 3,
},
},
},
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 1}},
phrasePart{"dog", &search.Location{Pos: 3}},
},
},
},
// match with leading ""
{
phrase: [][]string{{""}, {"cat"}, {"dog"}},
tlm: search.TermLocationMap{
"cat": search.Locations{
&search.Location{
Pos: 2,
},
},
"dog": search.Locations{
&search.Location{
Pos: 3,
},
},
},
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 2}},
phrasePart{"dog", &search.Location{Pos: 3}},
},
},
},
// match with trailing ""
{
phrase: [][]string{{"cat"}, {"dog"}, {""}},
tlm: search.TermLocationMap{
"cat": search.Locations{
&search.Location{
Pos: 2,
},
},
"dog": search.Locations{
&search.Location{
Pos: 3,
},
},
},
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 2}},
phrasePart{"dog", &search.Location{Pos: 3}},
},
},
},
}
for i, test := range tests {
actualPaths := findPhrasePaths(0, nil, test.phrase, test.tlm, nil, 0, nil)
if !reflect.DeepEqual(actualPaths, test.paths) {
t.Fatalf("expected: %v got %v for test %d", test.paths, actualPaths, i)
}
}
}
func TestFindPhrasePathsSloppy(t *testing.T) {
tlm := search.TermLocationMap{
"one": search.Locations{
&search.Location{
Pos: 1,
},
},
"two": search.Locations{
&search.Location{
Pos: 2,
},
},
"three": search.Locations{
&search.Location{
Pos: 3,
},
},
"four": search.Locations{
&search.Location{
Pos: 4,
},
},
"five": search.Locations{
&search.Location{
Pos: 5,
},
},
}
tests := []struct {
phrase [][]string
paths []phrasePath
slop int
tlm search.TermLocationMap
}{
// no match
{
phrase: [][]string{{"one"}, {"five"}},
slop: 2,
},
// should match
{
phrase: [][]string{{"one"}, {"five"}},
slop: 3,
paths: []phrasePath{
{
phrasePart{"one", &search.Location{Pos: 1}},
phrasePart{"five", &search.Location{Pos: 5}},
},
},
},
// slop 0 finds exact match
{
phrase: [][]string{{"four"}, {"five"}},
slop: 0,
paths: []phrasePath{
{
phrasePart{"four", &search.Location{Pos: 4}},
phrasePart{"five", &search.Location{Pos: 5}},
},
},
},
// slop 0 does not find exact match (reversed)
{
phrase: [][]string{{"two"}, {"one"}},
slop: 0,
},
// slop 1 finds exact match
{
phrase: [][]string{{"one"}, {"two"}},
slop: 1,
paths: []phrasePath{
{
phrasePart{"one", &search.Location{Pos: 1}},
phrasePart{"two", &search.Location{Pos: 2}},
},
},
},
// slop 1 *still* does not find exact match (reversed) requires at least 2
{
phrase: [][]string{{"two"}, {"one"}},
slop: 1,
},
// slop 2 does finds exact match reversed
{
phrase: [][]string{{"two"}, {"one"}},
slop: 2,
paths: []phrasePath{
{
phrasePart{"two", &search.Location{Pos: 2}},
phrasePart{"one", &search.Location{Pos: 1}},
},
},
},
// slop 2 not enough for this
{
phrase: [][]string{{"three"}, {"one"}},
slop: 2,
},
// slop should be cumulative
{
phrase: [][]string{{"one"}, {"three"}, {"five"}},
slop: 2,
paths: []phrasePath{
{
phrasePart{"one", &search.Location{Pos: 1}},
phrasePart{"three", &search.Location{Pos: 3}},
phrasePart{"five", &search.Location{Pos: 5}},
},
},
},
// should require 6
{
phrase: [][]string{{"five"}, {"three"}, {"one"}},
slop: 5,
},
// so lets try 6
{
phrase: [][]string{{"five"}, {"three"}, {"one"}},
slop: 6,
paths: []phrasePath{
{
phrasePart{"five", &search.Location{Pos: 5}},
phrasePart{"three", &search.Location{Pos: 3}},
phrasePart{"one", &search.Location{Pos: 1}},
},
},
},
// test an append() related edge case, where append()'s
// current behavior needs to be called 3 times starting from a
// nil slice before it grows to a slice with extra capacity --
// hence, 3 initial terms of ark, bat, cat
{
phrase: [][]string{
{"ark"}, {"bat"}, {"cat"}, {"dog"},
},
slop: 1,
paths: []phrasePath{
{
phrasePart{"ark", &search.Location{Pos: 1}},
phrasePart{"bat", &search.Location{Pos: 2}},
phrasePart{"cat", &search.Location{Pos: 3}},
phrasePart{"dog", &search.Location{Pos: 4}},
},
{
phrasePart{"ark", &search.Location{Pos: 1}},
phrasePart{"bat", &search.Location{Pos: 2}},
phrasePart{"cat", &search.Location{Pos: 3}},
phrasePart{"dog", &search.Location{Pos: 5}},
},
},
tlm: search.TermLocationMap{ // ark bat cat dog dog
"ark": search.Locations{
&search.Location{Pos: 1},
},
"bat": search.Locations{
&search.Location{Pos: 2},
},
"cat": search.Locations{
&search.Location{Pos: 3},
},
"dog": search.Locations{
&search.Location{Pos: 4},
&search.Location{Pos: 5},
},
},
},
// test that we don't see multiple hits from the same location
{
phrase: [][]string{
{"cat"}, {"dog"}, {"dog"},
},
slop: 1,
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 1}},
phrasePart{"dog", &search.Location{Pos: 2}},
phrasePart{"dog", &search.Location{Pos: 3}},
},
},
tlm: search.TermLocationMap{ // cat dog dog
"cat": search.Locations{
&search.Location{Pos: 1},
},
"dog": search.Locations{
&search.Location{Pos: 2},
&search.Location{Pos: 3},
},
},
},
// test that we don't see multiple hits from the same location
{
phrase: [][]string{
{"cat"}, {"dog"},
},
slop: 10,
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 1}},
phrasePart{"dog", &search.Location{Pos: 2}},
},
{
phrasePart{"cat", &search.Location{Pos: 1}},
phrasePart{"dog", &search.Location{Pos: 4}},
},
{
phrasePart{"cat", &search.Location{Pos: 3}},
phrasePart{"dog", &search.Location{Pos: 2}},
},
{
phrasePart{"cat", &search.Location{Pos: 3}},
phrasePart{"dog", &search.Location{Pos: 4}},
},
},
tlm: search.TermLocationMap{ // cat dog cat dog
"cat": search.Locations{
&search.Location{Pos: 1},
&search.Location{Pos: 3},
},
"dog": search.Locations{
&search.Location{Pos: 2},
&search.Location{Pos: 4},
},
},
},
}
for i, test := range tests {
tlmToUse := test.tlm
if tlmToUse == nil {
tlmToUse = tlm
}
actualPaths := findPhrasePaths(0, nil, test.phrase, tlmToUse, nil, test.slop, nil)
if !reflect.DeepEqual(actualPaths, test.paths) {
t.Fatalf("expected: %v got %v for test %d", test.paths, actualPaths, i)
}
}
}
func TestFindPhrasePathsSloppyPalyndrome(t *testing.T) {
tlm := search.TermLocationMap{
"one": search.Locations{
&search.Location{
Pos: 1,
},
&search.Location{
Pos: 5,
},
},
"two": search.Locations{
&search.Location{
Pos: 2,
},
&search.Location{
Pos: 4,
},
},
"three": search.Locations{
&search.Location{
Pos: 3,
},
},
}
tests := []struct {
phrase [][]string
paths []phrasePath
slop int
}{
// search non palyndrone, exact match
{
phrase: [][]string{{"two"}, {"three"}},
slop: 0,
paths: []phrasePath{
{
phrasePart{"two", &search.Location{Pos: 2}},
phrasePart{"three", &search.Location{Pos: 3}},
},
},
},
// same with slop 2 (not required) (find it twice)
{
phrase: [][]string{{"two"}, {"three"}},
slop: 2,
paths: []phrasePath{
{
phrasePart{"two", &search.Location{Pos: 2}},
phrasePart{"three", &search.Location{Pos: 3}},
},
{
phrasePart{"two", &search.Location{Pos: 4}},
phrasePart{"three", &search.Location{Pos: 3}},
},
},
},
// palyndrone reversed
{
phrase: [][]string{{"three"}, {"two"}},
slop: 2,
paths: []phrasePath{
{
phrasePart{"three", &search.Location{Pos: 3}},
phrasePart{"two", &search.Location{Pos: 2}},
},
{
phrasePart{"three", &search.Location{Pos: 3}},
phrasePart{"two", &search.Location{Pos: 4}},
},
},
},
}
for i, test := range tests {
actualPaths := findPhrasePaths(0, nil, test.phrase, tlm, nil, test.slop, nil)
if !reflect.DeepEqual(actualPaths, test.paths) {
t.Fatalf("expected: %v got %v for test %d", test.paths, actualPaths, i)
}
}
}
func TestFindMultiPhrasePaths(t *testing.T) {
tlm := search.TermLocationMap{
"cat": search.Locations{
&search.Location{
Pos: 1,
},
},
"dog": search.Locations{
&search.Location{
Pos: 2,
},
},
"frog": search.Locations{
&search.Location{
Pos: 3,
},
},
}
tests := []struct {
phrase [][]string
paths []phrasePath
}{
// simplest, one of two possible terms matches
{
phrase: [][]string{{"cat", "rat"}, {"dog"}},
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 1}},
phrasePart{"dog", &search.Location{Pos: 2}},
},
},
},
// two possible terms, neither work
{
phrase: [][]string{{"cat", "rat"}, {"chicken"}},
},
// two possible terms, one works, but out of position with next
{
phrase: [][]string{{"cat", "rat"}, {"frog"}},
},
// matches multiple times, with different pairing
{
phrase: [][]string{{"cat", "dog"}, {"dog", "frog"}},
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 1}},
phrasePart{"dog", &search.Location{Pos: 2}},
},
{
phrasePart{"dog", &search.Location{Pos: 2}},
phrasePart{"frog", &search.Location{Pos: 3}},
},
},
},
// multi-match over a gap
{
phrase: [][]string{{"cat", "rat"}, {""}, {"frog"}},
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 1}},
phrasePart{"frog", &search.Location{Pos: 3}},
},
},
},
// multi-match over a gap (same as before, but with empty term list)
{
phrase: [][]string{{"cat", "rat"}, {}, {"frog"}},
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 1}},
phrasePart{"frog", &search.Location{Pos: 3}},
},
},
},
// multi-match over a gap (same once again, but nil term list)
{
phrase: [][]string{{"cat", "rat"}, nil, {"frog"}},
paths: []phrasePath{
{
phrasePart{"cat", &search.Location{Pos: 1}},
phrasePart{"frog", &search.Location{Pos: 3}},
},
},
},
}
for i, test := range tests {
actualPaths := findPhrasePaths(0, nil, test.phrase, tlm, nil, 0, nil)
if !reflect.DeepEqual(actualPaths, test.paths) {
t.Fatalf("expected: %v got %v for test %d", test.paths, actualPaths, i)
}
}
}
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