package reader /* #cgo CFLAGS: -I${SRCDIR}/../core/output/include #cgo LDFLAGS: -L${SRCDIR}/../core/output/lib -lmilvus_segcore -Wl,-rpath=${SRCDIR}/../core/output/lib #include "collection_c.h" #include "segment_c.h" */ import "C" import ( "strconv" "unsafe" "github.com/stretchr/testify/assert" "github.com/zilliztech/milvus-distributed/internal/errors" "github.com/zilliztech/milvus-distributed/internal/proto/commonpb" servicePb "github.com/zilliztech/milvus-distributed/internal/proto/servicepb" ) type Segment struct { segmentPtr C.CSegmentBase segmentID UniqueID lastMemSize int64 lastRowCount int64 recentlyModified bool } func (s *Segment) ID() UniqueID { return s.segmentID } //-------------------------------------------------------------------------------------- constructor and destructor func newSegment(collection *Collection, segmentID int64) *Segment { /* CSegmentBase newSegment(CPartition partition, unsigned long segment_id); */ segmentPtr := C.NewSegment(collection.collectionPtr, C.ulong(segmentID)) var newSegment = &Segment{segmentPtr: segmentPtr, segmentID: segmentID} return newSegment } func deleteSegment(segment *Segment) { /* void deleteSegment(CSegmentBase segment); */ cPtr := segment.segmentPtr C.DeleteSegment(cPtr) } //-------------------------------------------------------------------------------------- stats functions func (s *Segment) getRowCount() int64 { /* long int getRowCount(CSegmentBase c_segment); */ var rowCount = C.GetRowCount(s.segmentPtr) return int64(rowCount) } func (s *Segment) getDeletedCount() int64 { /* long int getDeletedCount(CSegmentBase c_segment); */ var deletedCount = C.GetDeletedCount(s.segmentPtr) return int64(deletedCount) } func (s *Segment) getMemSize() int64 { /* long int GetMemoryUsageInBytes(CSegmentBase c_segment); */ var memoryUsageInBytes = C.GetMemoryUsageInBytes(s.segmentPtr) return int64(memoryUsageInBytes) } //-------------------------------------------------------------------------------------- preprocess functions func (s *Segment) segmentPreInsert(numOfRecords int) int64 { /* long int PreInsert(CSegmentBase c_segment, long int size); */ var offset = C.PreInsert(s.segmentPtr, C.long(int64(numOfRecords))) return int64(offset) } func (s *Segment) segmentPreDelete(numOfRecords int) int64 { /* long int PreDelete(CSegmentBase c_segment, long int size); */ var offset = C.PreDelete(s.segmentPtr, C.long(int64(numOfRecords))) return int64(offset) } //-------------------------------------------------------------------------------------- dm & search functions func (s *Segment) segmentInsert(offset int64, entityIDs *[]UniqueID, timestamps *[]Timestamp, records *[]*commonpb.Blob) error { /* int Insert(CSegmentBase c_segment, long int reserved_offset, signed long int size, const long* primary_keys, const unsigned long* timestamps, void* raw_data, int sizeof_per_row, signed long int count); */ // Blobs to one big blob var numOfRow = len(*entityIDs) var sizeofPerRow = len((*records)[0].Value) assert.Equal(nil, numOfRow, len(*records)) var rawData = make([]byte, numOfRow*sizeofPerRow) var copyOffset = 0 for i := 0; i < len(*records); i++ { copy(rawData[copyOffset:], (*records)[i].Value) copyOffset += sizeofPerRow } var cOffset = C.long(offset) var cNumOfRows = C.long(numOfRow) var cEntityIdsPtr = (*C.long)(&(*entityIDs)[0]) var cTimestampsPtr = (*C.ulong)(&(*timestamps)[0]) var cSizeofPerRow = C.int(sizeofPerRow) var cRawDataVoidPtr = unsafe.Pointer(&rawData[0]) var status = C.Insert(s.segmentPtr, cOffset, cNumOfRows, cEntityIdsPtr, cTimestampsPtr, cRawDataVoidPtr, cSizeofPerRow, cNumOfRows) if status != 0 { return errors.New("Insert failed, error code = " + strconv.Itoa(int(status))) } return nil } func (s *Segment) segmentDelete(offset int64, entityIDs *[]UniqueID, timestamps *[]Timestamp) error { /* int Delete(CSegmentBase c_segment, long int reserved_offset, long size, const long* primary_keys, const unsigned long* timestamps); */ var cOffset = C.long(offset) var cSize = C.long(len(*entityIDs)) var cEntityIdsPtr = (*C.long)(&(*entityIDs)[0]) var cTimestampsPtr = (*C.ulong)(&(*timestamps)[0]) var status = C.Delete(s.segmentPtr, cOffset, cSize, cEntityIdsPtr, cTimestampsPtr) if status != 0 { return errors.New("Delete failed, error code = " + strconv.Itoa(int(status))) } return nil } func (s *Segment) segmentSearch(query *queryInfo, timestamp Timestamp, vectorRecord *servicePb.PlaceholderValue) (*SearchResult, error) { /* */ //type CQueryInfo C.CQueryInfo /* void* Search(void* plan, void* placeholder_groups, uint64_t* timestamps, int num_groups, long int* result_ids, float* result_distances) */ cQuery := C.CQueryInfo{ num_queries: C.long(query.NumQueries), topK: C.int(query.TopK), field_name: C.CString(query.FieldName), } resultIds := make([]IntPrimaryKey, int64(query.TopK)*query.NumQueries) resultDistances := make([]float32, int64(query.TopK)*query.NumQueries) var cTimestamp = C.ulong(timestamp) var cResultIds = (*C.long)(&resultIds[0]) var cResultDistances = (*C.float)(&resultDistances[0]) var cQueryRawData *C.float var cQueryRawDataLength C.int //if vectorRecord.BinaryData != nil { // return nil, errors.New("data of binary type is not supported yet") //} else if len(vectorRecord.FloatData) <= 0 { // return nil, errors.New("null query vector data") //} else { // cQueryRawData = (*C.float)(&vectorRecord.FloatData[0]) // cQueryRawDataLength = (C.int)(len(vectorRecord.FloatData)) //} var status = C.Search(s.segmentPtr, cQuery, cTimestamp, cQueryRawData, cQueryRawDataLength, cResultIds, cResultDistances) if status != 0 { return nil, errors.New("search failed, error code = " + strconv.Itoa(int(status))) } //fmt.Println("search Result---- Ids =", resultIds, ", Distances =", resultDistances) return &SearchResult{ResultIds: resultIds, ResultDistances: resultDistances}, nil }