// This will need to be a bit more generic,
// but for testing this will work fine.
func (search *Search) GetSearcher() IndexReader {
idxLocation := cb_newf(search.Location)
search.lucySearcher = C.LucyIxSearcherNew(idxLocation)
C.DECREF(idxLocation)
return func(q string, field string, offset, limit uint) (uint, []string) {
query := cb_new_from_utf8(q)
getField := cb_newf(field)
hits := C.LucyIxSearcherHits(search.lucySearcher, query, C.uint32_t(offset), C.uint32_t(limit), nil)
totalNumHits := uint(C.LucyHitsTotal(hits))
requestedNumHits := minUInt(limit, totalNumHits)
results := make([]string, requestedNumHits)
var hit *C.LucyHitDoc
for i := uint(0); i < requestedNumHits; i++ {
hit = C.LucyHitsNext(hits)
if hit == nil {
break
}
value_cb := C.LucyHitDocExtract(hit, getField, nil) // do i need to free this
value := cb_ptr2char(value_cb) // do i need to free this
results[i] = C.GoString(value)
C.DECREF(hit)
}
C.DECREF(query)
C.DECREF(getField)
C.DECREF(hits)
return totalNumHits, results
}
}
func (ixReader *IndexReader) Search(query *Query, offset, limit uint, idField string, contentField string, includeMatchedTerms bool) (uint, []*SearchResult) {
// Should probably have some sort
// of `Results` object/iterator so that we don't have to specify
// offset/limit and where I can attach matched terms to the result.
lIdField, lContentField := cb_newf(idField), cb_newf(contentField) // total hack, need to return more than one field
defer C.DECREF(lIdField)
defer C.DECREF(lContentField)
hits := C.LucyIxSearcherHits(ixReader.lucySearcher, query.lucyQuery, C.uint32_t(offset), C.uint32_t(limit), nil)
defer C.DECREF(hits)
totalNumHits := uint(C.LucyHitsTotal(hits))
num2Return := minUInt(limit, totalNumHits)
results := make([]*SearchResult, num2Return)
var hit *C.LucyHitDoc
compiler := C.LucyQueryMakeCompiler(query.lucyQuery, ixReader.lucySearcher, 1.0, false)
defer C.DECREF(compiler)
matchedTerms := func(docId C.int32_t, result *SearchResult) {
docVec := C.LucyIxSearchFetchDocVec(ixReader.lucySearcher, docId)
defer C.DECREF(docVec)
spans := C.LucyCompilerHighlightSpans(compiler, ixReader.lucySearcher, docVec, lContentField)
defer C.DECREF(spans)
spanCnt := C.VaGetSize(spans)
if spanCnt == 0 {
// should never get here, but just in case...
return
}
result.MatchedTerms = make([]string, spanCnt)
var i C.uint32_t
for i = 0; i < spanCnt; i++ {
span := C.VaFetch(spans, i)
offset := C.LucySpanGetOffset(span)
length := C.LucySpanGetLength(span)
result.MatchedTerms[i] = string([]rune(result.Text)[offset : offset+length])
}
// make terms unique?
result.MatchedTerms = set(result.MatchedTerms)
}
var i uint
for i = 0; i < num2Return; i++ {
hit = C.LucyHitsNext(hits)
if hit == nil {
break
}
docId := C.LucyHitDocGetDocId(hit)
contentValue := cb_ptr2char(C.LucyHitDocExtract(hit, lContentField, nil)) // do i need to free this
idValue := cb_ptr2char(C.LucyHitDocExtract(hit, lIdField, nil)) // do i need to free this
results[i] = &SearchResult{
Id: C.GoString(idValue),
Text: C.GoString(contentValue),
Score: float32(C.LucyHitDocGetScore(hit)),
}
if includeMatchedTerms {
matchedTerms(docId, results[i])
}
C.DECREF(hit)
}
return totalNumHits, results
}