Пример #1
0
 /// <summary>
 /// Constructor<br>
 /// [Description]<br>
 /// none<br>
 /// [Notes]<br>
 /// </summary>
 public DetectionResult(HVC_RES parent)
 {
     this.Parent = parent;
     PosX        = -1;
     PosY        = -1;
     Size        = -1;
     Confidence  = -1;
 }
Пример #2
0
        /// <summary>
        /// Execute HVC functions<br>
        /// [Description]<br>
        /// Execute each HVC function. Store results in HVC_BLE.Result<br> </summary>
        /// <param name="inExec"> execution flag<br> </param>
        /// <param name="outStatus"> HVC execution result status<br> </param>
        /// <returns> int execution result error code <br> </returns>
        public async override Task <int> Execute(int inExec, HVC_RES res)
        {
            if (BtDevice == null)
            {
                Debug.WriteLine(TAG, "execute() : HVC_ERROR_NODEVICES");
                return(HVC_ERROR_NODEVICES);
            }
            if (Service == null || Service.GetmConnectionState() != BleDeviceService.STATE_CONNECTED)
            {
                Debug.WriteLine(TAG, "execute() : HVC_ERROR_DISCONNECTED");
                return(HVC_ERROR_DISCONNECTED);
            }
            if (Status > STATE_CONNECTED)
            {
                Debug.WriteLine(TAG, "execute() : HVC_ERROR_BUSY");
                return(HVC_ERROR_BUSY);
            }

            Status = STATE_BUSY;

            await Task.Run(() =>
            {
                int nRet         = HVC_NORMAL;
                byte[] outStatus = new byte[1];
                nRet             = Execute(30000, inExec, outStatus, res);
                if (Callback != null)
                {
                    Callback.OnPostExecute(nRet, outStatus[0]);
                }

                if (Status == STATE_BUSY)
                {
                    Status = STATE_CONNECTED;
                }
            });

            //Thread t = new Thread(new ThreadStart(() => {
            //    int nRet = HVC_NORMAL;
            //    byte[] outStatus = new byte[1];
            //    nRet = Execute(10000, inExec, outStatus, res);
            //    if (mCallback != null)
            //    {
            //        mCallback.onPostExecute(nRet, outStatus[0]);
            //    }

            //    if (mStatus == STATE_BUSY)
            //    {
            //        mStatus = STATE_CONNECTED;
            //    }
            //}));

            //t.Start();
            Debug.WriteLine(TAG, "execute() : HVC_NORMAL");
            return(HVC_NORMAL);
        }
Пример #3
0
 /// <summary>
 /// Constructor<br>
 /// [Description]<br>
 /// none<br>
 /// [Notes]<br>
 /// </summary>
 public FaceResult(HVC_RES parent)
     : base(parent)
 {
     this.Parent = parent;
     Dir         = new DirResult(this);
     Age         = new AgeResult(this);
     Gen         = new GenResult(this);
     Gaze        = new GazeResult(this);
     Blink       = new BlinkResult(this);
     Exp         = new ExpResult(this);
 }
Пример #4
0
        /// <summary>
        /// Execute<br>
        /// [Description]<br>
        /// none<br>
        /// [Notes]<br> </summary>
        /// <param name="inTimeOutTime"> timeout time<br> </param>
        /// <param name="inExec"> executable function<br> </param>
        /// <param name="outStatus"> response code<br> </param>
        public virtual int Execute(int inTimeOutTime, int inExec, byte[] outStatus, HVC_RES result)
        {
            int nRet = 0;

            int[]  nSize = { 0 };
            byte[] sendData;
            byte[] recvData;

            sendData = new byte[32];
            recvData = new byte[32];

            result.ExecutedFunc = inExec;
            result.Body.Clear();
            result.Hand.Clear();
            result.Face.Clear();

            /* Send Execute command signal */
            sendData[0] = unchecked ((byte)(inExec & 0xff));
            sendData[1] = unchecked ((byte)((inExec >> 8) & 0xff));
            sendData[2] = 0;
            nRet        = SendCommand(HVC_COM_EXECUTE, 3, sendData);
            if (nRet != 0)
            {
                return(nRet);
            }

            /* Receive header */
            nRet = ReceiveHeader(inTimeOutTime, nSize, outStatus);
            if (nRet != 0)
            {
                return(nRet);
            }

            int numBody = 0;
            int numHand = 0;
            int numFace = 0;

            /* Receive result data */
            if (nSize[0] >= 4)
            {
                nRet    = ReceiveData(inTimeOutTime, 4, recvData);
                numBody = (recvData[0] & 0xff);
                numHand = (recvData[1] & 0xff);
                numFace = (recvData[2] & 0xff);
                if (nRet != 0)
                {
                    return(nRet);
                }
                nSize[0] -= 4;
            }

            /* Get Human Body Detection result */
            for (int i = 0; i < numBody; i++)
            {
                var body = new omron.HVC.HVC_RES.DetectionResult((new HVC_RES()));

                if (nSize[0] >= 8)
                {
                    nRet            = ReceiveData(inTimeOutTime, 8, recvData);
                    body.PosX       = ((recvData[0] & 0xff) + (recvData[1] << 8));
                    body.PosY       = ((recvData[2] & 0xff) + (recvData[3] << 8));
                    body.Size       = ((recvData[4] & 0xff) + (recvData[5] << 8));
                    body.Confidence = ((recvData[6] & 0xff) + (recvData[7] << 8));
                    if (nRet != 0)
                    {
                        return(nRet);
                    }
                    nSize[0] -= 8;
                }

                result.Body.Add(body);
            }

            /* Get Hand Detection result */
            for (int i = 0; i < numHand; i++)
            {
                var hand = new omron.HVC.HVC_RES.DetectionResult((new HVC_RES()));

                if (nSize[0] >= 8)
                {
                    nRet            = ReceiveData(inTimeOutTime, 8, recvData);
                    hand.PosX       = ((recvData[0] & 0xff) + (recvData[1] << 8));
                    hand.PosY       = ((recvData[2] & 0xff) + (recvData[3] << 8));
                    hand.Size       = ((recvData[4] & 0xff) + (recvData[5] << 8));
                    hand.Confidence = ((recvData[6] & 0xff) + (recvData[7] << 8));
                    if (nRet != 0)
                    {
                        return(nRet);
                    }
                    nSize[0] -= 8;
                }

                result.Hand.Add(hand);
            }

            /* Face-related results */
            for (int i = 0; i < numFace; i++)
            {
                var face = new omron.HVC.HVC_RES.FaceResult((new HVC_RES()));

                /* Face Detection result */
                if (0 != (result.ExecutedFunc & HVC_ACTIV_FACE_DETECTION))
                {
                    if (nSize[0] >= 8)
                    {
                        nRet            = ReceiveData(inTimeOutTime, 8, recvData);
                        face.PosX       = ((recvData[0] & 0xff) + (recvData[1] << 8));
                        face.PosY       = ((recvData[2] & 0xff) + (recvData[3] << 8));
                        face.Size       = ((recvData[4] & 0xff) + (recvData[5] << 8));
                        face.Confidence = ((recvData[6] & 0xff) + (recvData[7] << 8));
                        if (nRet != 0)
                        {
                            return(nRet);
                        }
                        nSize[0] -= 8;
                    }
                }

                /* Face direction */
                if (0 != (result.ExecutedFunc & HVC_ACTIV_FACE_DIRECTION))
                {
                    if (nSize[0] >= 8)
                    {
                        nRet                = ReceiveData(inTimeOutTime, 8, recvData);
                        face.Dir.Yaw        = (short)((recvData[0] & 0xff) + (recvData[1] << 8));
                        face.Dir.Pitch      = (short)((recvData[2] & 0xff) + (recvData[3] << 8));
                        face.Dir.Roll       = (short)((recvData[4] & 0xff) + (recvData[5] << 8));
                        face.Dir.Confidence = (short)((recvData[6] & 0xff) + (recvData[7] << 8));
                        if (nRet != 0)
                        {
                            return(nRet);
                        }
                        nSize[0] -= 8;
                    }
                }

                /* Age */
                if (0 != (result.ExecutedFunc & HVC_ACTIV_AGE_ESTIMATION))
                {
                    if (nSize[0] >= 3)
                    {
                        nRet                = ReceiveData(inTimeOutTime, 3, recvData);
                        face.Age.Age        = recvData[0];
                        face.Age.Confidence = (short)((recvData[1] & 0xff) + (recvData[2] << 8));
                        if (nRet != 0)
                        {
                            return(nRet);
                        }
                        nSize[0] -= 3;
                    }
                }

                /* Gender */
                if (0 != (result.ExecutedFunc & HVC_ACTIV_GENDER_ESTIMATION))
                {
                    if (nSize[0] >= 3)
                    {
                        nRet                = ReceiveData(inTimeOutTime, 3, recvData);
                        face.Gen.Gender     = recvData[0];
                        face.Gen.Confidence = (short)((recvData[1] & 0xff) + (recvData[2] << 8));
                        if (nRet != 0)
                        {
                            return(nRet);
                        }
                        nSize[0] -= 3;
                    }
                }

                /* Gaze */
                if (0 != (result.ExecutedFunc & HVC_ACTIV_GAZE_ESTIMATION))
                {
                    if (nSize[0] >= 2)
                    {
                        nRet             = ReceiveData(inTimeOutTime, 2, recvData);
                        face.Gaze.GazeLR = recvData[0];
                        face.Gaze.GazeUD = recvData[1];
                        if (nRet != 0)
                        {
                            return(nRet);
                        }
                        nSize[0] -= 2;
                    }
                }

                /* Blink */
                if (0 != (result.ExecutedFunc & HVC_ACTIV_BLINK_ESTIMATION))
                {
                    if (nSize[0] >= 4)
                    {
                        nRet = ReceiveData(inTimeOutTime, 4, recvData);
                        face.Blink.RatioL = (short)((recvData[0] & 0xff) + (recvData[1] << 8));
                        face.Blink.RatioR = (short)((recvData[2] & 0xff) + (recvData[3] << 8));
                        if (nRet != 0)
                        {
                            return(nRet);
                        }
                        nSize[0] -= 4;
                    }
                }

                /* Expression */
                if (0 != (result.ExecutedFunc & HVC_ACTIV_EXPRESSION_ESTIMATION))
                {
                    if (nSize[0] >= 3)
                    {
                        nRet = ReceiveData(inTimeOutTime, 3, recvData);
                        face.Exp.Expression = recvData[0];
                        face.Exp.Score      = recvData[1];
                        face.Exp.Degree     = recvData[2];
                        if (nRet != 0)
                        {
                            return(nRet);
                        }
                        nSize[0] -= 3;
                    }
                }

                result.Face.Add(face);
            }

            return(HVC_NORMAL);
        }
Пример #5
0
 public abstract Task <int> Execute(int inExec, HVC_RES res);