派生自 analysis
work/sdk/humantrack.go
@@ -20,6 +20,12 @@ batchSize int flag int list *LockList mapCameraImageIndex map[string]int recvImageCount int index int images [batchSize]*gohumantrack.ImageHumanTracker msgs [batchSize]*work.MsgRS } // NewHumanTracker new @@ -29,6 +35,9 @@ batchSize: batchSize, flag: flag, list: NewLockList(6), recvImageCount: 0, index: 0, } } @@ -84,7 +93,7 @@ } hr := convert2ProtoHumanTrackResult(res) result := protomsg.HumanTrackResult{Result: hr[0]} result := protomsg.HumanTrackResult{Result: hr} data, err := proto.Marshal(&result) if err != nil { logo.Errorln("HUMAN TRACKER MARSHAL PROTO PLATE IDS ERROR", err) @@ -99,9 +108,87 @@ } func (t *HumanTracker) trackBatch(rMsg work.MsgRS, out chan<- work.MsgRS, typ string) { i := unpackImage(rMsg, typ) if i == nil || i.Data == nil || i.Width <= 0 || i.Height <= 0 { ejectResult(nil, rMsg, out) return } imgW, imgH := int(i.Width), int(i.Height) img := gohumantrack.ImageHumanTracker{ Data: i.Data, Width: imgW, Height: imgH, Channel: 3, } // mapCameraImageIndex map[string]int // images []gohumantrack.ImageHumanTracker t.recvImageCount++ if t.mapCameraImageIndex == nil { t.mapCameraImageIndex = make(map[string]int) for i := 0; i < t.batchSize; i++ { t.images[i] = nil } for i := 0; i < t.batchSize; i++ { t.msgs[i] = nil } } if i, ok := t.mapCameraImageIndex[rMsg.Msg.Cid]; ok { if i < batchSize { t.images[i] = &img t.msgs[i] = &rMsg } } else { if t.index < batchSize { t.images[t.index] = &img t.msgs[t.index] = &rMsg t.mapCameraImageIndex[rMsg.Msg.Cid] = t.index } t.index++ } if t.recvImageCount < t.batchSize+t.batchSize/2 { return } res, err := t.tracker.ProcessImagePointer(t.images[:]) if err != nil { t.mapCameraImageIndex = nil ejectResult(nil, rMsg, out) return } for i := 0; i < t.batchSize; i++ { if t.images[i] == nil { continue } hr := convert2ProtoHumanTrackResult(res[i]) result := protomsg.HumanTrackResult{Result: hr} data, err := proto.Marshal(&result) if err != nil { logo.Errorln("HUMAN TRACKER MARSHAL PROTO PLATE IDS ERROR", err) data = nil } msg := *t.msgs[i] ejectResult(data, msg, out) var id, name string if msg.Msg.Tasklab != nil { id, name = msg.Msg.Tasklab.Taskid, msg.Msg.Tasklab.Taskname } logo.Infoln("CAMERAID: ", msg.Msg.Cid, " TASKID: ", id, " TASKNAME: ", name, " Human Track COUNT: ", len(hr[0])) } } // Run impl func (t *HumanTracker) Run(ctx context.Context, in <-chan work.MsgRS, out chan<- work.MsgRS, typ string) { FlowSimple(ctx, in, out, typ, t.list.Push, t.list.Pop, t.track, t.Free) // FlowSimple(ctx, in, out, typ, t.list.Push, t.list.Pop, t.track, t.Free) FlowSimple(ctx, in, out, typ, t.list.Push, t.list.Pop, t.trackBatch, t.Free) } // message HumanTrack { @@ -117,30 +204,25 @@ // repeated HumanTrack result = 1; // } func convert2ProtoHumanTrackResult(obj []gohumantrack.FgResult) [][]*protomsg.HumanTrack { ret := [][]*protomsg.HumanTrack{} for _, v := range obj { res := []*protomsg.HumanTrack{} for i := 0; i < int(v.FgNum); i++ { r := v.Fginfo[i] rect := protomsg.Rect{ Left: r.Left, Right: r.Right, Top: r.Top, Bottom: r.Bottom, } pr := &protomsg.HumanTrack{ RcHuman: &rect, Confidence: r.Confidence, X: r.X, Y: r.Y, Id: r.ID, Feature: r.Feature[:], } res = append(res, pr) func convert2ProtoHumanTrackResult(obj gohumantrack.FgResult) []*protomsg.HumanTrack { res := []*protomsg.HumanTrack{} for i := 0; i < int(v.FgNum); i++ { r := v.Fginfo[i] rect := protomsg.Rect{ Left: r.Left, Right: r.Right, Top: r.Top, Bottom: r.Bottom, } ret = append(ret, res) pr := &protomsg.HumanTrack{ RcHuman: &rect, Confidence: r.Confidence, X: r.X, Y: r.Y, Id: r.ID, Feature: r.Feature[:], } res = append(res, pr) } return ret return res }
