func (c *ClassIMP) GetMethods() []Method { self := (*C.cfish_Class)(Unwrap(c, "c")) methsVec := C.CFISH_Class_Get_Methods(self) size := C.CFISH_Vec_Get_Size(methsVec) meths := make([]Method, 0, int(size)) for i := C.size_t(0); i < size; i++ { meths = append(meths, WRAPMethod(unsafe.Pointer(C.CFISH_Vec_Fetch(methsVec, i)))) } C.cfish_decref(unsafe.Pointer(methsVec)) return meths }
// Turn a Vector of Clownfish Strings into a slice of Go string. NULL // elements in the Vector are not allowed. func vecToStringSlice(v *C.cfish_Vector) []string { if v == nil { return nil } length := int(C.CFISH_Vec_Get_Size(v)) slice := make([]string, length) for i := 0; i < length; i++ { slice[i] = clownfish.CFStringToGo(unsafe.Pointer(C.CFISH_Vec_Fetch(v, C.size_t(i)))) } return slice }
func (h *HashIMP) Keys() []string { self := (*C.cfish_Hash)(Unwrap(h, "h")) keysCF := C.CFISH_Hash_Keys(self) numKeys := C.CFISH_Vec_Get_Size(keysCF) keys := make([]string, 0, int(numKeys)) for i := C.size_t(0); i < numKeys; i++ { keys = append(keys, CFStringToGo(unsafe.Pointer(C.CFISH_Vec_Fetch(keysCF, i)))) } C.cfish_decref(unsafe.Pointer(keysCF)) return keys }
func (td *TopDocsIMP) GetMatchDocs() []MatchDoc { self := (*C.lucy_TopDocs)(clownfish.Unwrap(td, "td")) vec := C.LUCY_TopDocs_Get_Match_Docs(self) length := int(C.CFISH_Vec_Get_Size(vec)) slice := make([]MatchDoc, length) for i := 0; i < length; i++ { elem := C.cfish_incref(unsafe.Pointer(C.CFISH_Vec_Fetch(vec, C.size_t(i)))) slice[i] = WRAPMatchDoc(unsafe.Pointer(elem)) } return slice }
func (spec *SortSpecIMP) GetRules() []SortRule { self := (*C.lucy_SortSpec)(clownfish.Unwrap(spec, "spec")) vec := C.LUCY_SortSpec_Get_Rules(self) length := int(C.CFISH_Vec_Get_Size(vec)) slice := make([]SortRule, length) for i := 0; i < length; i++ { elem := C.cfish_incref(unsafe.Pointer(C.CFISH_Vec_Fetch(vec, C.size_t(i)))) slice[i] = WRAPSortRule(unsafe.Pointer(elem)) } return slice }
func (p *PolyAnalyzerIMP) GetAnalyzers() []Analyzer { self := (*C.lucy_PolyAnalyzer)(clownfish.Unwrap(p, "p")) retvalCF := C.LUCY_PolyAnalyzer_Get_Analyzers(self) size := C.CFISH_Vec_Get_Size(retvalCF) retval := make([]Analyzer, int(size)) for i := 0; i < int(size); i++ { child := unsafe.Pointer(C.CFISH_Vec_Fetch(retvalCF, C.size_t(i))) retval[i] = clownfish.WRAPAny(unsafe.Pointer(C.cfish_incref(child))).(Analyzer) } return retval }
func (sc *SortCollectorIMP) PopMatchDocs() []MatchDoc { self := (*C.lucy_SortCollector)(clownfish.Unwrap(sc, "sc")) matchDocsC := C.LUCY_SortColl_Pop_Match_Docs(self) defer C.cfish_decref(unsafe.Pointer(matchDocsC)) length := int(C.CFISH_Vec_Get_Size(matchDocsC)) slice := make([]MatchDoc, length) for i := 0; i < length; i++ { elem := C.cfish_incref(unsafe.Pointer(C.CFISH_Vec_Fetch(matchDocsC, C.size_t(i)))) slice[i] = WRAPMatchDoc(unsafe.Pointer(elem)) } return slice }
func vecToSpanSlice(v *C.cfish_Vector) []Span { if v == nil { return nil } length := int(C.CFISH_Vec_Get_Size(v)) slice := make([]Span, length) for i := 0; i < length; i++ { elem := C.CFISH_Vec_Fetch(v, C.size_t(i)) slice[i] = clownfish.ToGo(unsafe.Pointer(elem)).(Span) } return slice }
func (d *DataReaderIMP) GetSegments() []Segment { self := (*C.lucy_DataReader)(clownfish.Unwrap(d, "d")) retvalCF := C.LUCY_DataReader_Get_Segments(self) if retvalCF == nil { return nil } size := C.CFISH_Vec_Get_Size(retvalCF) retval := make([]Segment, int(size)) for i := 0; i < int(size); i++ { elem := unsafe.Pointer(C.CFISH_Vec_Fetch(retvalCF, C.size_t(i))) retval[i] = clownfish.ToGo(unsafe.Pointer(C.cfish_incref(elem))).(Segment) } return retval }
func (r *IndexReaderIMP) SegReaders() []SegReader { self := (*C.lucy_IndexReader)(clownfish.Unwrap(r, "r")) retvalCF := C.LUCY_IxReader_Seg_Readers(self) defer C.cfish_decref(unsafe.Pointer(retvalCF)) if retvalCF == nil { return nil } size := C.CFISH_Vec_Get_Size(retvalCF) retval := make([]SegReader, int(size)) for i := 0; i < int(size); i++ { elem := unsafe.Pointer(C.CFISH_Vec_Fetch(retvalCF, C.size_t(i))) retval[i] = clownfish.ToGo(unsafe.Pointer(C.cfish_incref(elem))).(SegReader) } return retval }
func (im *IndexManagerIMP) Recycle(reader PolyReader, delWriter DeletionsWriter, cutoff int64, optimize bool) (retval []SegReader, err error) { err = clownfish.TrapErr(func() { self := (*C.lucy_IndexManager)(clownfish.Unwrap(im, "im")) readerC := (*C.lucy_PolyReader)(clownfish.Unwrap(reader, "reader")) delWriterC := (*C.lucy_DeletionsWriter)(clownfish.Unwrap(delWriter, "delWriter")) vec := C.LUCY_IxManager_Recycle(self, readerC, delWriterC, C.int64_t(cutoff), C.bool(optimize)) if vec != nil { defer C.cfish_decref(unsafe.Pointer(vec)) size := int(C.CFISH_Vec_Get_Size(vec)) retval = make([]SegReader, size) for i := 0; i < size; i++ { elem := C.CFISH_Vec_Fetch(vec, C.size_t(i)) retval[i] = WRAPSegReader(unsafe.Pointer(C.cfish_incref(unsafe.Pointer(elem)))) } } }) return retval, err }
func VectorToGo(ptr unsafe.Pointer) []interface{} { vec := (*C.cfish_Vector)(ptr) if vec == nil { return nil } class := C.cfish_Obj_get_class((*C.cfish_Obj)(ptr)) if class != C.CFISH_VECTOR { mess := "Not a Vector: " + StringToGo(unsafe.Pointer(C.CFISH_Class_Get_Name(class))) panic(NewErr(mess)) } size := C.CFISH_Vec_Get_Size(vec) if size > C.size_t(maxInt) { panic(fmt.Sprintf("Overflow: %d > %d", size, maxInt)) } slice := make([]interface{}, int(size)) for i := 0; i < int(size); i++ { slice[i] = ToGo(unsafe.Pointer(C.CFISH_Vec_Fetch(vec, C.size_t(i)))) } return slice }
func (obj *IndexerIMP) findFieldC(name string) *C.cfish_String { self := ((*C.lucy_Indexer)(unsafe.Pointer(obj.TOPTR()))) if obj.fieldNames == nil { obj.fieldNames = make(map[string]clownfish.String) } f, ok := obj.fieldNames[name] if !ok { schema := C.LUCY_Indexer_Get_Schema(self) fieldList := C.LUCY_Schema_All_Fields(schema) defer C.cfish_dec_refcount(unsafe.Pointer(fieldList)) for i := 0; i < int(C.CFISH_Vec_Get_Size(fieldList)); i++ { cfString := unsafe.Pointer(C.CFISH_Vec_Fetch(fieldList, C.size_t(i))) field := clownfish.CFStringToGo(cfString) if strings.EqualFold(name, field) { C.cfish_inc_refcount(cfString) f = clownfish.WRAPString(cfString) obj.fieldNames[name] = f } } } return (*C.cfish_String)(unsafe.Pointer(f.TOPTR())) }
func (obj *IndexerIMP) findRealField(name string) (string, error) { self := ((*C.lucy_Indexer)(unsafe.Pointer(obj.TOPTR()))) if obj.fieldNames == nil { obj.fieldNames = make(map[string]string) } if field, ok := obj.fieldNames[name]; ok { return field, nil } else { schema := C.LUCY_Indexer_Get_Schema(self) fieldList := C.LUCY_Schema_All_Fields(schema) defer C.cfish_dec_refcount(unsafe.Pointer(fieldList)) for i := 0; i < int(C.CFISH_Vec_Get_Size(fieldList)); i++ { cfString := unsafe.Pointer(C.CFISH_Vec_Fetch(fieldList, C.size_t(i))) field := clownfish.CFStringToGo(cfString) if strings.EqualFold(name, field) { obj.fieldNames[name] = field return field, nil } } } return "", clownfish.NewErr(fmt.Sprintf("Unknown field: '%v'", name)) }