// Copyright The OpenTelemetry Authors // SPDX-License-Identifier: Apache-2.0 // Code generated by "internal/cmd/pdatagen/main.go". DO NOT EDIT. // To regenerate this file run "make genpdata". package internal import ( "fmt" "sync" "go.opentelemetry.io/collector/pdata/internal/json" "go.opentelemetry.io/collector/pdata/internal/metadata" "go.opentelemetry.io/collector/pdata/internal/proto" ) // Summary represents the type of a metric that is calculated by aggregating as a Summary of all reported double measurements over a time interval. type Summary struct { DataPoints []*SummaryDataPoint } var ( protoPoolSummary = sync.Pool{ New: func() any { return &Summary{} }, } ) func NewSummary() *Summary { if !metadata.PdataUseProtoPoolingFeatureGate.IsEnabled() { return &Summary{} } return protoPoolSummary.Get().(*Summary) } func DeleteSummary(orig *Summary, nullable bool) { if orig == nil { return } if !metadata.PdataUseProtoPoolingFeatureGate.IsEnabled() { orig.Reset() return } for i := range orig.DataPoints { DeleteSummaryDataPoint(orig.DataPoints[i], true) } orig.Reset() if nullable { protoPoolSummary.Put(orig) } } func CopySummary(dest, src *Summary) *Summary { // If copying to same object, just return. if src == dest { return dest } if src == nil { return nil } if dest == nil { dest = NewSummary() } dest.DataPoints = CopySummaryDataPointPtrSlice(dest.DataPoints, src.DataPoints) return dest } func CopySummarySlice(dest, src []Summary) []Summary { var newDest []Summary if cap(dest) < len(src) { newDest = make([]Summary, len(src)) } else { newDest = dest[:len(src)] // Cleanup the rest of the elements so GC can free the memory. // This can happen when len(src) < len(dest) < cap(dest). for i := len(src); i < len(dest); i++ { DeleteSummary(&dest[i], false) } } for i := range src { CopySummary(&newDest[i], &src[i]) } return newDest } func CopySummaryPtrSlice(dest, src []*Summary) []*Summary { var newDest []*Summary if cap(dest) < len(src) { newDest = make([]*Summary, len(src)) // Copy old pointers to re-use. copy(newDest, dest) // Add new pointers for missing elements from len(dest) to len(srt). for i := len(dest); i < len(src); i++ { newDest[i] = NewSummary() } } else { newDest = dest[:len(src)] // Cleanup the rest of the elements so GC can free the memory. // This can happen when len(src) < len(dest) < cap(dest). for i := len(src); i < len(dest); i++ { DeleteSummary(dest[i], true) dest[i] = nil } // Add new pointers for missing elements. // This can happen when len(dest) < len(src) < cap(dest). for i := len(dest); i < len(src); i++ { newDest[i] = NewSummary() } } for i := range src { CopySummary(newDest[i], src[i]) } return newDest } func (orig *Summary) Reset() { *orig = Summary{} } // MarshalJSON marshals all properties from the current struct to the destination stream. func (orig *Summary) MarshalJSON(dest *json.Stream) { dest.WriteObjectStart() if len(orig.DataPoints) > 0 { dest.WriteObjectField("dataPoints") dest.WriteArrayStart() orig.DataPoints[0].MarshalJSON(dest) for i := 1; i < len(orig.DataPoints); i++ { dest.WriteMore() orig.DataPoints[i].MarshalJSON(dest) } dest.WriteArrayEnd() } dest.WriteObjectEnd() } // UnmarshalJSON unmarshals all properties from the current struct from the source iterator. func (orig *Summary) UnmarshalJSON(iter *json.Iterator) { for f := iter.ReadObject(); f != ""; f = iter.ReadObject() { switch f { case "dataPoints", "data_points": for iter.ReadArray() { orig.DataPoints = append(orig.DataPoints, NewSummaryDataPoint()) orig.DataPoints[len(orig.DataPoints)-1].UnmarshalJSON(iter) } default: iter.Skip() } } } func (orig *Summary) SizeProto() int { var n int var l int _ = l for i := range orig.DataPoints { l = orig.DataPoints[i].SizeProto() n += 1 + proto.Sov(uint64(l)) + l } return n } func (orig *Summary) MarshalProto(buf []byte) int { pos := len(buf) var l int _ = l for i := len(orig.DataPoints) - 1; i >= 0; i-- { l = orig.DataPoints[i].MarshalProto(buf[:pos]) pos -= l pos = proto.EncodeVarint(buf, pos, uint64(l)) pos-- buf[pos] = 0xa } return len(buf) - pos } func (orig *Summary) UnmarshalProto(buf []byte) error { var err error var fieldNum int32 var wireType proto.WireType l := len(buf) pos := 0 for pos < l { // If in a group parsing, move to the next tag. fieldNum, wireType, pos, err = proto.ConsumeTag(buf, pos) if err != nil { return err } switch fieldNum { case 1: if wireType != proto.WireTypeLen { return fmt.Errorf("proto: wrong wireType = %d for field DataPoints", wireType) } var length int length, pos, err = proto.ConsumeLen(buf, pos) if err != nil { return err } startPos := pos - length orig.DataPoints = append(orig.DataPoints, NewSummaryDataPoint()) err = orig.DataPoints[len(orig.DataPoints)-1].UnmarshalProto(buf[startPos:pos]) if err != nil { return err } default: pos, err = proto.ConsumeUnknown(buf, pos, wireType) if err != nil { return err } } } return nil } func GenTestSummary() *Summary { orig := NewSummary() orig.DataPoints = []*SummaryDataPoint{{}, GenTestSummaryDataPoint()} return orig } func GenTestSummaryPtrSlice() []*Summary { orig := make([]*Summary, 5) orig[0] = NewSummary() orig[1] = GenTestSummary() orig[2] = NewSummary() orig[3] = GenTestSummary() orig[4] = NewSummary() return orig } func GenTestSummarySlice() []Summary { orig := make([]Summary, 5) orig[1] = *GenTestSummary() orig[3] = *GenTestSummary() return orig }