예제 #1
0
        private void task()
        {
            MotorControler mc     = MotorControler.GetInstance(parameterManager);
            Surface        sur    = Surface.GetInstance(parameterManager);
            Camera         camera = Camera.GetInstance();
            Led            led    = Led.GetInstance();

            Vector3 InitPoint = mc.GetPoint();
            Vector3 p         = new Vector3();

            double emthickness = sur.UpTop - sur.UpBottom;
            int    nshot       = (int)(emthickness / 0.003);


            int blockXCounter = 0;
            int blockYCounter = 0;

            while (blockYCounter < nyView)
            {
                while (blockXCounter < nxView)
                {
                    string txtfileName = string.Format(@"{0}\{1}.txt"
                                                       , direcotryPath
                                                       , System.DateTime.Now.ToString("yyyyMMdd_HHmmss_ffff")
                                                       );
                    StreamWriter twriter = File.CreateText(txtfileName);

                    //Vector3 InitPointofThisBlock = new Vector3(
                    //    InitPoint.X + blockXCounter * 4.350,
                    //    InitPoint.Y + blockYCounter * 4.390,
                    //    InitPoint.Z
                    //    );

                    //Vector3 SurfPointofThisBlock = new Vector3(
                    //    InitPointofThisBlock.X + 2.200,
                    //    InitPointofThisBlock.Y + 2.200,
                    //    InitPoint.Z
                    //    );

                    Vector3 InitPointofThisBlock = new Vector3(
                        InitPoint.X + (double)(blockXCounter) * ((0.210 - 0.01) * 10 - 0.030), //if x40 -> 2.150,
                        InitPoint.Y - (double)(blockYCounter) * ((0.180 - 0.01) * 10 - 0.030), //if x40 -> 2.170,
                        InitPoint.Z
                        );

                    Vector3 SurfPointofThisBlock = new Vector3(
                        InitPointofThisBlock.X + 1.000,
                        InitPointofThisBlock.Y - 1.000,
                        InitPoint.Z
                        );


                    //go to surface measurement
                    mc.MovePoint(SurfPointofThisBlock.X, SurfPointofThisBlock.Y, sur.UpTop + 0.050);//above 50micron
                    mc.Join();

                    //surface landing
                    bool flag         = true;
                    int  layercounter = 0;
                    camera.Start();
                    while (flag)
                    {
                        mc.MoveDistance(-0.003, VectorId.Z);
                        mc.Join();
                        byte[] b   = camera.ArrayImage;
                        Mat    src = new Mat(440, 512, MatType.CV_8U, b);
                        Mat    mat = src.Clone();

                        Cv2.GaussianBlur(mat, mat, Cv.Size(3, 3), -1);
                        Mat gau = mat.Clone();
                        Cv2.GaussianBlur(gau, gau, Cv.Size(31, 31), -1);
                        Cv2.Subtract(gau, mat, mat);
                        Cv2.Threshold(mat, mat, 10, 1, ThresholdType.Binary);
                        int brightness = Cv2.CountNonZero(mat);
                        layercounter++;

                        if (brightness > 10000 || layercounter > 30)
                        {
                            flag = false;
                        }
                    }
                    led.AdjustLight(parameterManager);
                    camera.Stop();

                    //surface
                    double surfacetopz    = mc.GetPoint().Z;
                    double surfacebottomz = surfacetopz - emthickness;


                    //data taking
                    int rowcounter = 0;
                    int colcounter = 0;
                    //while (rowcounter < 24) {
                    //    while (colcounter < 20) {
                    while (rowcounter < 12)
                    {
                        while (colcounter < 10)
                        {
                            string    stlog  = "";
                            byte[]    bb     = new byte[440 * 512 * nshot];
                            double    startZ = 0.0;
                            PlusMinus plusminus;

                            if (colcounter % 2 == 0)
                            {
                                //camera.Start();
                                //led.AdjustLight(parameterManager);
                                //camera.Stop();
                                startZ    = surfacetopz + 0.012;
                                plusminus = PlusMinus.Minus;
                            }
                            else
                            {
                                startZ    = surfacebottomz - 0.009;
                                plusminus = PlusMinus.Plus;
                            }

                            double prev_z = startZ;

                            mc.MovePoint(
                                InitPointofThisBlock.X + (0.210 - 0.01) * colcounter, //x40, 0.230-0.01 //parameterManager.SpiralShiftX
                                InitPointofThisBlock.Y - (0.180 - 0.01) * rowcounter, //x40, 0.195-0.01 //parameterManager.SpiralShiftY
                                startZ);
                            mc.Join();

                            p = mc.GetPoint();
                            DateTime starttime   = System.DateTime.Now;
                            string   datfileName = string.Format(@"{0}\{1}_x{2}_y{3}_xi{4}_yi{5}.dat",
                                                                 direcotryPath,
                                                                 starttime.ToString("yyyyMMdd_HHmmss"),
                                                                 (int)(p.X * 1000),
                                                                 (int)(p.Y * 1000),
                                                                 colcounter,
                                                                 rowcounter
                                                                 );
                            BinaryWriter writer = new BinaryWriter(File.Open(datfileName, FileMode.Create));

                            mc.Inch(plusminus, 0.15, VectorId.Z);

                            int viewcounter = 0;
                            while (viewcounter < nshot + 3)
                            {
                                byte[] b = Ipt.CaptureMain();
                                p = mc.GetPoint();
                                TimeSpan ts = System.DateTime.Now - starttime;
                                stlog += String.Format("{0} {1} {2} {3} {4} {5} {6} {7}\n",
                                                       colcounter % 2,
                                                       System.DateTime.Now.ToString("HHmmss\\.fff"),
                                                       ts.ToString("s\\.fff"),
                                                       (p.X * 1000).ToString("0.0"),
                                                       (p.Y * 1000).ToString("0.0"),
                                                       (p.Z * 1000).ToString("0.0"),
                                                       (prev_z * 1000 - p.Z * 1000).ToString("0.0"),
                                                       viewcounter);
                                prev_z = p.Z;

                                if (viewcounter >= 3)
                                {
                                    b.CopyTo(bb, 440 * 512 * (viewcounter - 3));
                                }
                                viewcounter++;
                            }//view
                            viewcounter = 0;

                            mc.SlowDownStop(VectorId.Z);

                            twriter.Write(stlog);
                            writer.Write(bb);
                            writer.Flush();
                            writer.Close();
                            colcounter++;
                        }//col
                        colcounter = 0;
                        rowcounter++;
                    }//row
                    rowcounter = 0;
                    twriter.Close();
                    blockXCounter++;
                }//blockX
                blockXCounter = 0;
                blockYCounter++;
            }//blockY
            blockYCounter = 0;
            camera.Start();
        }//end of task()
예제 #2
0
        /// <summary>
        /// recogThreadの行う処理です.このメソッドを直接呼び出さないでください.
        /// </summary>
        private void recogThread_Task()
        {
            App.logger.Info("Surface.recogThread_Task() start");

            if (Started != null)
            {
                Started(this, new EventArgs());
            }

            Camera camera = Camera.GetInstance();

            camera.Start();

            /* Z軸をSpeed1(低速)でマイナス方向に動かして,最下点もしくは下降距離分だけ移動させる.*/
            MotorControler mc = MotorControler.GetInstance(parameterManager);

            speedBeforeStart = mc.Speed;


            bool   flag;
            double temp_z;

            mc.Inch(PlusMinus.Minus, motorSpeed, VectorId.Z);
            flag = true;
            while (flag)
            {
                int brightness = CountHitPixels();
                if (brightness > 8000)
                {
                    flag = false;
                }
                //if (brightness < 10000) flag = false;//
            }

            /*
             *          UpTopRecognized(this, new eventArgs());
             * LowBottomRecognized(this, new eventArgs());
             *          LowTopRecognized(this, new eventArgs());
             *          UpBottomRecognized(this, new eventArgs());
             */
            mc.SlowDownStop(VectorId.Z);
            surfaces[0] = mc.GetPoint().Z;
            System.Diagnostics.Debug.WriteLine(string.Format("{0}", mc.GetPoint().Z));
            Thread.Sleep(100);



            mc.Move(new Vector3(0.0, 0.0, -0.2));
            mc.Join();
            Thread.Sleep(100);


            mc.Inch(PlusMinus.Minus, motorSpeed, VectorId.Z);
            flag = true;
            while (flag)
            {
                int brightness = CountHitPixels();
                if (brightness < 5000)
                {
                    flag = false;                   //
                }
                // if (brightness < 4000) flag = false;
            }


            surfaces[1] = mc.GetPoint().Z;//
            // surfaces[2] = mc.GetPoint().Z;
            System.Diagnostics.Debug.WriteLine(string.Format("{0}", mc.GetPoint().Z));


            flag = true;
            while (flag)
            {
                int brightness = CountHitPixels();
                //if (brightness > 4000) flag = false;
                if (brightness > 5000)
                {
                    flag = false;
                }
            }


            mc.SlowDownStop(VectorId.Z);
            // surfaces[1] = mc.GetPoint().Z;
            surfaces[2] = mc.GetPoint().Z;//
            System.Diagnostics.Debug.WriteLine(string.Format("{0}", mc.GetPoint().Z));
            Thread.Sleep(100);
            // Thread.Sleep(150);//

            //  mc.Move(new Vector3(0.0, 0.0, -0.2));
            mc.Move(new Vector3(0.0, 0.0, -0.23));//
            mc.Join();
            Thread.Sleep(100);
            //Thread.Sleep(150);//

            mc.Inch(PlusMinus.Minus, motorSpeed, VectorId.Z);

            flag = true;
            while (flag)
            {
                int brightness = CountHitPixels();
                // if (brightness < 2000) flag = false;
                if (brightness < 3000)
                {
                    flag = false;                   //
                }
            }

            mc.SlowDownStop(VectorId.Z);
            surfaces[3] = mc.GetPoint().Z;
            System.Diagnostics.Debug.WriteLine(string.Format("{0}", mc.GetPoint().Z));
            Thread.Sleep(100);
            // Thread.Sleep(150);//

            // temp_z = (surfaces[0] - 0.05) - mc.GetPoint().Z;
            temp_z = (surfaces[0] + 0.02) - mc.GetPoint().Z;//
            mc.Move(new Vector3(0.0, 0.0, temp_z));
            mc.Join();
            Thread.Sleep(100);
            //Thread.Sleep(150);//


            /*
             *          // モータZ軸をマイナス方向(下方向)に稼働させる
             *          try {
             *                  // 下降の開始
             *                  mc.SetMotorSpeed(IO.MotorSpeed.Speed3);
             *                  mc.Inch(MechaAxisAddress.ZAddress, PlusMinus.Plus);
             *          } catch (MotorAxisException) {
             *                  // すでに最下点に位置していた場合は,catchのスコープが実行される.
             *                  isOnBottomLimit = true;
             *          }
             *
             *          // 最下点もしくは下降距離分に下降したかを監視する.
             *          double startPoint = mc.GetPoint().Z;
             *          while (!isOnBottomLimit) {
             *                  // 移動距離の確認
             *                  if (loweringDistance != 0) {
             *                          isOnBottomLimit = (loweringDistance <= Math.Abs(mc.GetPoint().Z - startPoint));
             *                  }
             *
             *                  // モータの移動可能最下点到達か否かの確認
             *                  isOnBottomLimit |=
             *                          (mc.GetAbnomalState(MechaAxisAddress.ZAddress)
             *                          == MotorAbnomalState.AxisLimitPlus);
             *          }
             *          // 最下点に到達したため,モータの移動を止める.
             *          // 最下点に到達時のイベントを発生させる
             *          mc.StopInching(MechaAxisAddress.ZAddress);
             *          if (OnMotorBottomLimited != null) {
             *                  OnMotorBottomLimited(this, new EventArgs());
             *          }
             *
             *          // 遅延を行わないとモータドライバが動作不良を起こす場合がある.
             *          Thread.Sleep(300);
             *
             * */



            /* -------------------- 下降の完了 ---------------- */

            /* 上昇しながら撮影中の画像を分析する */
            // 最下点からZ軸をプラス方向に動かす.
            // 撮影中の画像がゲルの中か否かを判定する.
            // ベース及びその他の場所と,ゲルの中の境界である座標を記録する.


/*
 *
 *
 *                      mc.Inch(PlusMinus.Plus, motorSpeed, VectorId.Z);
 *                      startPoint = mc.GetPoint().Z;
 *
 *
 *         // bool flag = true;
 *
 *          while (flag) {
 *              //Thread.Sleep(delayTime);
 *
 *              byte[] b = camera.ArrayImage;
 *              Mat src = new Mat(440, 512, MatType.CV_8U, b);
 *              Mat mat = src.Clone();
 *
 *              Cv2.GaussianBlur(mat, mat, Cv.Size(3, 3), -1);
 *              Mat gau = mat.Clone();
 *              Cv2.GaussianBlur(gau, gau, Cv.Size(31, 31), -1);
 *              Cv2.Subtract(gau, mat, mat);
 *              Cv2.Threshold(mat, mat, 10, 1, ThresholdType.Binary);
 *              int brightness = Cv2.CountNonZero(mat);
 *
 *              if (brightness > 3000) flag = false;
 *          }
 *
 *          mc.StopInching(MechaAxisAddress.ZAddress);
 *          surfaces[3] = mc.GetPoint().Z;
 *          System.Diagnostics.Debug.WriteLine(string.Format("{0}", mc.GetPoint().Z));
 *
 *
 *
 *        //  Vector3 speed = new Vector3(30, 30, 0.4);//つかわないけど
 *         // Vector3 tolerance = new Vector3(0.001, 0.001, 0.001);//つかわないけど
 *        //  Vector3 distance = new Vector3(0, 0, 0.3);
 *        //  mc.Move(distance, speed, tolerance);
 *
 *          Thread.Sleep(100);
 *
 *
 */

            /*
             *
             *
             * mc.Inch(PlusMinus.Plus, MotorSpeed, VectorId.Z);
             * double currentPoint = mc.GetPoint().Z;
             *
             * bool dice = true;
             *
             * while (dice) {
             *
             *  double nowPoint = mc.GetPoint().Z;
             *
             *  double renge = nowPoint - currentPoint;
             *
             *  if (renge > 0.20) dice = false;
             *
             *
             *
             *
             * }
             * mc.StopInching(MechaAxisAddress.ZAddress);
             *
             * Thread.Sleep(100);
             *
             *
             * /
             *
             *
             * //  mc.MoveDistance(0.2, VectorId.Z);
             * //   mc.Join();
             * // Thread.Sleep(2000);
             * //  System.Diagnostics.Debug.WriteLine(string.Format("{0}", mc.GetPoint().Z));
             * /*
             *
             * mc.Inch(PlusMinus.Plus, motorSpeed, VectorId.Z);
             * flag = true;
             * while (flag) {
             *
             *  byte[] b = camera.ArrayImage;
             *  Mat src = new Mat(440, 512, MatType.CV_8U, b);
             *  Mat mat = src.Clone();
             *
             *  Cv2.GaussianBlur(mat, mat, Cv.Size(3, 3), -1);
             *  Mat gau = mat.Clone();
             *  Cv2.GaussianBlur(gau, gau, Cv.Size(31, 31), -1);
             *  Cv2.Subtract(gau, mat, mat);
             *  Cv2.Threshold(mat, mat, 10, 1, ThresholdType.Binary);
             *  int brightness = Cv2.CountNonZero(mat);
             *
             *  if (brightness < 4000) flag = false;
             * }
             *
             *
             * surfaces[2] = mc.GetPoint().Z;
             * System.Diagnostics.Debug.WriteLine(string.Format("{0}", mc.GetPoint().Z));
             *
             */


/*
 *
 *
 *          flag = true;
 *          while (flag) {
 *
 *              byte[] b = camera.ArrayImage;
 *              Mat src = new Mat(440, 512, MatType.CV_8U, b);
 *              Mat mat = src.Clone();
 *
 *              Cv2.GaussianBlur(mat, mat, Cv.Size(3, 3), -1);
 *              Mat gau = mat.Clone();
 *              Cv2.GaussianBlur(gau, gau, Cv.Size(31, 31), -1);
 *              Cv2.Subtract(gau, mat, mat);
 *              Cv2.Threshold(mat, mat, 10, 1, ThresholdType.Binary);
 *              int brightness = Cv2.CountNonZero(mat);
 *
 *              if (brightness > 4000) flag = false;
 *          }
 *
 *          mc.StopInching(MechaAxisAddress.ZAddress);
 *          surfaces[1] = mc.GetPoint().Z;
 *          System.Diagnostics.Debug.WriteLine(string.Format("{0}", mc.GetPoint().Z));
 *
 *
 *          //mc.Move(distance, speed, tolerance);
 *
 *
 *
 *
 *
 *
 *
 *          // 遅延を行わないとモータドライバが動作不良を起こす場合がある.
 *          Thread.Sleep(100);
 *
 *
 */

/*
 *
 *          mc.Inch(PlusMinus.Plus, MotorSpeed, VectorId.Z);
 *          double current2Point = mc.GetPoint().Z;
 *
 *          bool dice2 = true;
 *
 *          while (dice2) {
 *
 *              double nowPoint = mc.GetPoint().Z;
 *
 *              double renge = nowPoint - current2Point;
 *
 *              if (renge > 0.20) dice2 = false;
 *
 *
 *
 *
 *           }
 *
 *          mc.StopInching(MechaAxisAddress.ZAddress);
 *
 *          Thread.Sleep(100);
 *
 */

            // mc.MoveDistance(0.2, VectorId.Z);
            // mc.Join();

            //  Thread.Sleep(2000);
            // System.Diagnostics.Debug.WriteLine(string.Format("{0}", mc.GetPoint().Z));

            /*          mc.Inch(PlusMinus.Plus, motorSpeed, VectorId.Z);
             *        flag = true;
             *        while (flag) {
             *
             *            byte[] b = camera.ArrayImage;
             *            Mat src = new Mat(440, 512, MatType.CV_8U, b);
             *            Mat mat = src.Clone();
             *
             *            Cv2.GaussianBlur(mat, mat, Cv.Size(3, 3), -1);
             *            Mat gau = mat.Clone();
             *            Cv2.GaussianBlur(gau, gau, Cv.Size(31, 31), -1);
             *            Cv2.Subtract(gau, mat, mat);
             *            Cv2.Threshold(mat, mat, 10, 1, ThresholdType.Binary);
             *            int brightness = Cv2.CountNonZero(mat);
             *
             *            if (brightness < 12000) flag = false;
             *        }
             *        mc.StopInching(MechaAxisAddress.ZAddress);
             *        surfaces[0] = mc.GetPoint().Z;
             *        System.Diagnostics.Debug.WriteLine(string.Format("{0}", mc.GetPoint().Z));
             *
             *
             *
             */


            //////////////

            //  mc.AAAAAA();


            /*
             *          stopWatch = new System.Diagnostics.Stopwatch();
             *          stopWatch.Start();
             *
             *          int idNo = 0;
             *          int index = 3;
             #if false
             *          bool[] votes = new bool[numOfVoting];
             *          int[] values = new int[numOfVoting];
             *          double[] points = new double[numOfVoting];
             *
             *                  Thread.Sleep(delayTime);
             *
             *                  // 今回の入力画像の演算結果を多数決配列の最後尾に設定する.
             *                  // 同時に今回の判定値やモータの座標もそれぞれ保持する.
             *                  votes[votes.Length - 1] = IsInGel();
             *                  values[values.Length - 1] = brightness;
             *                  points[points.Length - 1] = mc.GetPoint().Z;
             *
             *                  // 今回と過去一定回数分の結果で多数決をとる.
             *                  presentResult = Vote(votes);
             *
             *                  // 多数決の結果配列を一つずつシフトする
             *                  for (int i = 0; i < values.Length; ++i) {
             *                          votes[i] = (i == votes.Length - 1 ? false : votes[i + 1]);
             *                          values[i] = (i == values.Length - 1 ? 0 : values[i + 1]);
             *                          points[i] = (i == points.Length - 1 ? 0 : points[i + 1]);
             *                  }
             #endif
             *
             *          double previousZVal, presentZVal;
             *          int previousBrightness , presentBrightness;
             *          bool previousResult = false, presentResult = false;
             *          while (index >= 0) {
             *                  Thread.Sleep(delayTime);
             *                  presentZVal = Math.Round(mc.GetPoint().Z, 5);
             *                  presentResult = IsInGel();
             *                  bool isBorder = isBoudarySurface(previousResult, presentResult, index);
             *
             *                  // 撮像・入力画像の確認のイベントを発生させる.
             *                  SurfaceEventArgs eventArgs = new SurfaceEventArgs();
             *                  eventArgs.Id = idNo;
             #if false
             *                  eventArgs.ZValue = points[0];
             *                  eventArgs.Brightness = values[0];
             *                  eventArgs.Distance = Math.Abs(points[0] - startPoint);
             #endif
             *
             *                  presentBrightness = brightness;
             *                  eventArgs.ZValue = presentZVal;
             *                  eventArgs.Brightness = presentBrightness;
             *                  eventArgs.Distance = Math.Abs(presentZVal - startPoint);
             *                  eventArgs.IsInGel = presentResult;
             *                  eventArgs.IsBoundary = isBorder;
             *                  eventArgs.Second = Time;
             ++idNo;
             *                  if (Shooting != null) {
             *                          Thread t = new Thread(new ThreadStart(delegate() {
             *                                  Shooting(this, eventArgs);
             *                          }));
             *                          t.IsBackground = true;
             *                          t.Start();
             *                  }
             *
             *                  if (isBorder) {
             *                          // 境界面であった場合,多数決に用いたZ座標の値の内,最も古い値を境界面の座標として採用する.
             *                          // ここでは境界面として,その座標値を保持している.
             *                          //surfaces[index] = points[0];
             *                          surfaces[index] = presentZVal;
             *
             *                          // 境界面認識時のイベントを発生させる.
             *                          switch (index) {
             *                                  case 3:
             *                                          if (LowBottomRecognized != null) {
             *                                                  LowBottomRecognized(this, eventArgs);
             *                                          }
             *                                          break;
             *                                  case 2:
             *                                          if (LowTopRecognized != null) {
             *                                                  LowTopRecognized(this, eventArgs);
             *                                          }
             *                                          break;
             *                                  case 1:
             *                                          if (UpBottomRecognized != null) {
             *                                                  UpBottomRecognized(this, eventArgs);
             *                                          }
             *                                          break;
             *                                  case 0:
             *                                          if (UpTopRecognized != null) {
             *                                                  UpTopRecognized(this, eventArgs);
             *                                          }
             *                                          break;
             *                          }
             *
             *                          --index;
             *                  }
             *                  previousResult = presentResult;
             *                  previousBrightness = presentBrightness;
             *                  previousZVal = presentZVal;
             *
             *                  // 距離によるエラー終了
             *                  if (mc.GetPoint().Z - startPoint > distanceOut) {
             *                          mc.StopInching(MechaAxisAddress.ZAddress);
             *                          throw new SurfaceFailedException("Distance limit out");
             *                  }
             *          }
             *
             *          mc.StopInching(MechaAxisAddress.ZAddress);
             *          stopWatch.Stop();
             *          dateTime = DateTime.Now;
             *          latestCoord = new Vector2(mc.GetPoint().X, mc.GetPoint().Y);
             */
        }
예제 #3
0
        private void task()
        {
            MotorControler mc     = MotorControler.GetInstance(parameterManager);
            Surface        sur    = Surface.GetInstance(parameterManager);
            Camera         camera = Camera.GetInstance();
            Led            led    = Led.GetInstance();
            CoordManager   cm     = new CoordManager(parameterManager);


            Vector3 initialpoint = mc.GetPoint();

            int pixthre = 500;


            for (int bx = -5; bx <= 5; bx++)
            {
                for (int by = -5; by <= 5; by++)
                {
                    string       txtfileName = string.Format(@"E:\img\{0}_{1}.txt", bx, by);
                    StreamWriter twriter     = File.CreateText(txtfileName);

                    Vector3 blockstartpoint = new Vector3();
                    blockstartpoint.X = initialpoint.X + bx * 1.0;
                    blockstartpoint.Y = initialpoint.Y + by * 1.0;
                    blockstartpoint.Z = initialpoint.Z;

                    mc.MoveTo(new Vector3(blockstartpoint.X + 0.5, blockstartpoint.Y + 0.5, initialpoint.Z - 0.020));
                    mc.Join();

                    int ledbrightness = led.AdjustLight(parameterManager);


                    camera.Start();
                    surfrecog(pixthre, 0.003);
                    camera.Stop();
                    double surfaceZup = mc.GetPoint().Z;



                    //上面  ベース中からはじめ、ベース上側を表面認識
                    //ベース上側からはじめてZ方向正の向きにスキャン


                    for (int vy = 0; vy < 10; vy++)
                    {
                        Vector3 linestartpoint = mc.GetPoint();
                        linestartpoint.X = blockstartpoint.X;
                        linestartpoint.Y = blockstartpoint.Y + vy * parameterManager.SpiralShiftY;
                        linestartpoint.Z = surfaceZup;

                        for (int vx = 0; vx < 8;)
                        {
                            if (vx == 0)
                            {
                                Vector3 approachingpoint = mc.GetPoint();
                                approachingpoint.X = blockstartpoint.X + vx * parameterManager.SpiralShiftX - 0.05;
                                approachingpoint.Y = blockstartpoint.Y + vy * parameterManager.SpiralShiftY - 0.05;
                                approachingpoint.Z = linestartpoint.Z - 0.006;
                                mc.MoveTo(approachingpoint);
                                mc.Join();
                            }

                            Vector3 viewstartpoint = mc.GetPoint();
                            viewstartpoint.X = blockstartpoint.X + vx * parameterManager.SpiralShiftX;
                            viewstartpoint.Y = blockstartpoint.Y + vy * parameterManager.SpiralShiftY;
                            viewstartpoint.Z = linestartpoint.Z - 0.006;

                            mc.MoveTo(viewstartpoint);
                            mc.Join();
                            Thread.Sleep(100);

                            Vector3            viewpoint = mc.GetPoint();
                            List <ImageTaking> lit       = new List <ImageTaking>();

                            mc.Inch(PlusMinus.Plus, 0.15, VectorId.Z);

                            int viewcounter = 0;
                            while (viewcounter < 16 + 3)
                            {
                                byte[]  b = Ipt.CaptureMain();
                                Vector3 p = mc.GetPoint();

                                if (viewcounter >= 3)
                                {
                                    ImageTaking it = new ImageTaking(p, b);

                                    string stlog = "";
                                    stlog += String.Format("{0}   {1}  {2}  {3}\n",
                                                           ledbrightness,
                                                           p.X,
                                                           p.Y,
                                                           p.Z);
                                    twriter.Write(stlog);
                                }
                                viewcounter++;
                            }//view
                            viewcounter = 0;
                            double endz = mc.GetPoint().Z;

                            mc.SlowDownStop(VectorId.Z);
                            mc.Join();

                            if (endz - viewstartpoint.Z < 0.070)
                            {
                                tsparams tsp = new tsparams();
                                tsp.phthre = 10;
                                List <microtrack> lm = TrackSelector.Select(lit, tsp);
                                foreach (microtrack m in lm)
                                {
                                    double viewx  = viewpoint.X;
                                    double viewy  = viewpoint.Y;
                                    double pixelx = 135.0 / 512.0;
                                    double pixely = 115.0 / 440.0;
                                    double x      = viewx - (m.cx - 256) * pixelx;
                                    double y      = viewy + (m.cy - 220) * pixely;
                                    Console.WriteLine(string.Format("{0:0.0} {1:0.0}   {2:0.0} {3:0.0}    {4:0.0} {5:0.0}  {6:0.0} {7:0.0}", m.ph, m.pv, m.ax, m.ay, x, y, m.cx, m.cy));
                                }
                                vx++;
                            }
                        } //vx
                    }     //vy



                    //下面  ベース中からはじめ、ベース下側を表面認識
                    //ベース下側からはじめてZ方向負の向きにスキャン

                    mc.MoveTo(new Vector3(blockstartpoint.X + 0.5, blockstartpoint.Y + 0.5, initialpoint.Z - 0.140));
                    mc.Join();

                    camera.Start();
                    surfrecog(pixthre, -0.003);
                    camera.Stop();

                    double surfaceZdown = mc.GetPoint().Z;


                    for (int vy = 0; vy < 10; vy++)
                    {
                        Vector3 linestartpoint = mc.GetPoint();
                        linestartpoint.X = blockstartpoint.X;
                        linestartpoint.Y = blockstartpoint.Y + vy * parameterManager.SpiralShiftY;
                        linestartpoint.Z = surfaceZdown;


                        for (int vx = 0; vx < 8;)
                        {
                            if (vx == 0)
                            {
                                Vector3 approachingpoint = mc.GetPoint();
                                approachingpoint.X = blockstartpoint.X + vx * parameterManager.SpiralShiftX - 0.05;
                                approachingpoint.Y = blockstartpoint.Y + vy * parameterManager.SpiralShiftY - 0.05;
                                approachingpoint.Z = linestartpoint.Z + 0.006;
                                mc.MoveTo(approachingpoint);
                                mc.Join();
                            }

                            Vector3 viewstartpoint = mc.GetPoint();
                            viewstartpoint.X = blockstartpoint.X + vx * parameterManager.SpiralShiftX;
                            viewstartpoint.Y = blockstartpoint.Y + vy * parameterManager.SpiralShiftY;
                            viewstartpoint.Z = linestartpoint.Z + 0.006;

                            mc.MoveTo(viewstartpoint);
                            mc.Join();
                            Thread.Sleep(100);

                            Vector3 viewpoint = mc.GetPoint();

                            byte[] bb          = new byte[440 * 512 * 16];
                            string datfileName = string.Format(@"E:\img\d_{0}_{1}_{2}_{3}.dat",
                                                               (int)(viewpoint.X * 1000),
                                                               (int)(viewpoint.Y * 1000),
                                                               vx,
                                                               vy
                                                               );
                            BinaryWriter writer = new BinaryWriter(File.Open(datfileName, FileMode.Create));

                            mc.Inch(PlusMinus.Minus, 0.15, VectorId.Z);

                            int viewcounter = 0;
                            while (viewcounter < 16 + 3)
                            {
                                byte[]  b = Ipt.CaptureMain();
                                Vector3 p = mc.GetPoint();

                                if (viewcounter >= 3)
                                {
                                    b.CopyTo(bb, 440 * 512 * (viewcounter - 3));

                                    string stlog = "";
                                    stlog += String.Format("{0}   {1}  {2}  {3}\n",
                                                           ledbrightness,
                                                           p.X,
                                                           p.Y,
                                                           p.Z);
                                    twriter.Write(stlog);
                                }
                                viewcounter++;
                            }//view
                            viewcounter = 0;
                            double endz = mc.GetPoint().Z;

                            mc.SlowDownStop(VectorId.Z);
                            mc.Join();
                            Thread.Sleep(100);

                            if (viewstartpoint.Z - endz < 0.070)
                            {
                                vx++;
                                writer.Write(bb);
                                writer.Flush();
                                writer.Close();
                            }
                        } //vx
                    }     //vy



                    camera.Stop();
                    twriter.Close();
                } //blocky
            }     //blockx
        }         //task
예제 #4
0
        private void task()
        {
            MotorControler mc     = MotorControler.GetInstance(parameterManager);
            Surface        sur    = Surface.GetInstance(parameterManager);
            Camera         camera = Camera.GetInstance();
            Led            led    = Led.GetInstance();
            CoordManager   cm     = new CoordManager(parameterManager);


            Vector3 initialpoint = mc.GetPoint();

            int pixthre = 500;


            for (int bx = -1; bx <= 1; bx++)
            {
                for (int by = -1; by <= 1; by++)
                {
                    string       txtfileName = string.Format(@"E:\img\{0}_{1}.txt", bx, by);
                    StreamWriter twriter     = File.CreateText(txtfileName);

                    Vector3 blockstartpoint = new Vector3();
                    blockstartpoint.X = initialpoint.X + bx * 1.0;
                    blockstartpoint.Y = initialpoint.Y + by * 1.0;
                    blockstartpoint.Z = initialpoint.Z;

                    mc.MoveTo(new Vector3(blockstartpoint.X + 0.5, blockstartpoint.Y + 0.5, initialpoint.Z));
                    mc.Join();

                    camera.Start();
                    int ledbrightness = led.AdjustLight(parameterManager);
                    camera.Stop();


                    //初期位置からはじめてZ方向正の向きにスキャン


                    for (int vy = 0; vy < 10; vy++)
                    {
                        Vector3 linestartpoint = mc.GetPoint();
                        linestartpoint.X = blockstartpoint.X;
                        linestartpoint.Y = blockstartpoint.Y + vy * parameterManager.SpiralShiftY;
                        linestartpoint.Z = initialpoint.Z;

                        for (int vx = 0; vx < 8;)
                        {
                            if (vx == 0)
                            {
                                Vector3 approachingpoint = mc.GetPoint();
                                approachingpoint.X = blockstartpoint.X + vx * parameterManager.SpiralShiftX - 0.05;
                                approachingpoint.Y = blockstartpoint.Y + vy * parameterManager.SpiralShiftY - 0.05;
                                approachingpoint.Z = linestartpoint.Z;
                                mc.MoveTo(approachingpoint);
                                mc.Join();
                            }

                            Vector3 viewstartpoint = mc.GetPoint();
                            viewstartpoint.X = blockstartpoint.X + vx * parameterManager.SpiralShiftX;
                            viewstartpoint.Y = blockstartpoint.Y + vy * parameterManager.SpiralShiftY;
                            viewstartpoint.Z = linestartpoint.Z;

                            mc.MoveTo(viewstartpoint);
                            mc.Join();
                            Thread.Sleep(100);

                            Vector3 viewpoint = mc.GetPoint();

                            int    npict       = 300;
                            byte[] bb          = new byte[440 * 512 * npict];
                            string datfileName = string.Format(@"E:\img\u_{0}_{1}_{2}_{3}.dat",
                                                               (int)(viewpoint.X * 1000),
                                                               (int)(viewpoint.Y * 1000),
                                                               vx,
                                                               vy
                                                               );
                            BinaryWriter writer = new BinaryWriter(File.Open(datfileName, FileMode.Create));

                            mc.Inch(PlusMinus.Plus, 0.15 / 12, VectorId.Z);

                            int viewcounter = 0;
                            while (viewcounter < npict + 3)
                            {
                                byte[]  b = Ipt.CaptureMain();
                                Vector3 p = mc.GetPoint();

                                if (viewcounter >= 3)
                                {
                                    b.CopyTo(bb, 440 * 512 * (viewcounter - 3));

                                    string stlog = "";
                                    stlog += String.Format("{0}   {1}  {2}  {3}\n",
                                                           ledbrightness,
                                                           p.X,
                                                           p.Y,
                                                           p.Z);
                                    twriter.Write(stlog);
                                }
                                viewcounter++;
                            }//view
                            viewcounter = 0;
                            double endz = mc.GetPoint().Z;

                            mc.SlowDownStop(VectorId.Z);
                            mc.Join();
                            Thread.Sleep(100);

                            if (endz - viewstartpoint.Z < 0.15)
                            {
                                vx++;
                                writer.Write(bb);
                                writer.Flush();
                                writer.Close();
                            }
                        } //vx
                    }     //vy



                    camera.Stop();
                    twriter.Close();
                } //blocky
            }     //blockx
        }         //task