Exemple #1
0
        private void GetVideo(object sender, EventArgs e)
        {
            //Берем кадр
            var Kadr = myCapture.QueryFrame();

            //Вставляем в imageBox
            imageBox1.Image = myCapture.QueryFrame();
        }
Exemple #2
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        Image <Bgr, byte> QueryFrame(int CameraNum, int SWidth, int SHeigth)
        {
            Image <Bgr, byte> _imageCV      = null;
            VideoCapture      _VideoCapture = new VideoCapture(CameraNum);

            _VideoCapture.SetCaptureProperty(CapProp.Autofocus, 39);
            _VideoCapture.SetCaptureProperty(CapProp.AutoExposure, 21);
            ICapture _Capture = _VideoCapture as ICapture;
            Mat      _ImgMat  = _Capture.QueryFrame();

            _ImgMat  = _Capture.QueryFrame();
            _imageCV = new Image <Bgr, byte>(_ImgMat.Bitmap);
            _imageCV = _imageCV.Resize(SWidth, SHeigth, Inter.Linear);
            _VideoCapture.Dispose();
            return(_imageCV);
        }
 void Capture(object sender, EventArgs e)
 {
     try
     {
         _ImgMat = _Capture.QueryFrame();
     }
     catch { };
 }
Exemple #4
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        Result[] ScanBarCode()
        {
            Result[]          resultArray = null;
            ICapture          capture     = (ICapture)video;
            Mat               img         = capture.QueryFrame();
            int               with        = img.Width;
            int               heigh       = img.Height;
            Image <Hsv, byte> image1      = (Image <Hsv, byte>)null;

            image1 = new Image <Hsv, byte>(img.Bitmap);
            int       width  = integerVariable3 - integerVariable1;
            int       height = integerVariable4 - integerVariable2;
            Rectangle rect   = new Rectangle(integerVariable1, integerVariable2, width, height);

            image1.Draw(rect, new Hsv(0.0, 0.0, (double)byte.MaxValue), 10, Emgu.CV.CvEnum.LineType.AntiAlias, 0);
            image1.Save(@"C:\Images\Labe.jpg");
            image1.Dispose();


            Image             Image1   = Bitmap.FromFile(@"C:\Images\Labe.jpg");
            Image <Bgr, Byte> myImage1 = new Image <Bgr, Byte>((Bitmap)Image1);
            int length = 0;

            string[] strArray1 = (string[])null;
            string[] strArray2 = (string[])null;
            bool     flag;

            try
            {
                resultArray = new BarcodeReader().DecodeMultiple(myImage1.Bitmap);
                flag        = false;
                if (resultArray != null)
                {
                    length = resultArray.Length;
                }
                if (length > 0)
                {
                    flag      = true;
                    strArray1 = new string[length];
                    strArray2 = new string[length];
                    for (int index = 0; index < length; ++index)
                    {
                        Result result = resultArray[index];
                        strArray1[index] = result.Text;
                        strArray2[index] = result.BarcodeFormat.ToString();
                    }
                }
            }
            catch (Exception ex)
            {
            }

            Image1.Dispose();
            return(resultArray);
        }
Exemple #5
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        private void timer1_Tick(object sender, EventArgs e)
        {
            integerVariable1 = Convert.ToInt32(txtWidthX0.Text);  //"Argument7", "X1");
            integerVariable2 = Convert.ToInt32(txtHeightY0.Text); //("Argument8", "Y1");
            integerVariable3 = Convert.ToInt32(txtWidthX1.Text);  //"Argument9", "X2");
            integerVariable4 = Convert.ToInt32(txtHeightY1.Text); //"Argument10", "Y2");

            video.SetCaptureProperty(Emgu.CV.CvEnum.CapProp.Autofocus, 0);
            //video.SetCaptureProperty(CapProp.Focus, 75);
            ICapture capture = (ICapture)video;
            Mat      img     = capture.QueryFrame();

            _imgRealTime = (Image <Hsv, byte>)null;
            _imgRealTime = new Image <Hsv, byte>(img.Bitmap);
            int       width  = integerVariable3 - integerVariable1;
            int       height = integerVariable4 - integerVariable2;
            Rectangle rect   = new Rectangle(integerVariable1, integerVariable2, width, height);

            _imgRealTime.Draw(rect, new Hsv(0.0, 0.0, (double)byte.MaxValue), 5, Emgu.CV.CvEnum.LineType.AntiAlias, 0);
            CvInvoke.PutText(_imgRealTime, "BarCode: " + _SerialNumberFromBarcode, new Point(100, 60), FontFace.HersheyComplex, 1.0, new Rgb(0, 0, 0).MCvScalar, 2);
            CvInvoke.PutText(_imgRealTime, "OCR: " + _SerialNumberFromOCR, new Point(100, 100), FontFace.HersheyComplex, 1.0, new Rgb(0, 0, 0).MCvScalar, 2);
            pictureBox1.Image = _imgRealTime.Bitmap;
        }
Exemple #6
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 string TesseractAPI()
 {
     using (var objOcr = OcrApi.Create())
     {
         objOcr.Init(Patagames.Ocr.Enums.Languages.English);
         objOcr.SetVariable("tessedit_char_whitelist", "0123456789-Model:");
         ICapture          capture = (ICapture)video;
         Mat               img     = capture.QueryFrame();
         int               with    = img.Width;
         int               heigh   = img.Height;
         Image <Hsv, byte> image1  = (Image <Hsv, byte>)null;
         image1 = new Image <Hsv, byte>(img.Bitmap);
         int       width  = integerVariable3 - integerVariable1;
         int       height = integerVariable4 - integerVariable2;
         Rectangle rect   = new Rectangle(integerVariable1, integerVariable2, width, height);
         image1.Draw(rect, new Hsv(0.0, 0.0, (double)byte.MaxValue), 10, Emgu.CV.CvEnum.LineType.AntiAlias, 0);
         image1.Save(@"C:\Images\Labe.jpg");
         image1.Dispose();
         var    _bmp = Bitmap.FromFile(@"C:\Images\Labe.jpg");
         string _OCR = objOcr.GetTextFromImage((Bitmap)_bmp);
         _bmp.Dispose();
         return(_OCR);
     }
 }
Exemple #7
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        private void ProcessFrame(object sender, EventArgs e)
        {
            //String str = String.Format("withBall.jpg");

            //originalImg = CvInvoke.Imread(str)


            originalImg = capture.QueryFrame();
            Image <Bgr, Byte> outputImg = originalImg.ToImage <Bgr, Byte>();



            int imgWidth  = originalImg.Width;
            int imgHeight = originalImg.Height;


            UMat grayImg = new UMat();

            //Convert RBG to Gray
            CvInvoke.CvtColor(originalImg, grayImg, ColorConversion.Bgr2Gray);

            //use image pyr to remove noise
            UMat pyrDown = new UMat();

            CvInvoke.PyrDown(grayImg, pyrDown);
            CvInvoke.PyrUp(pyrDown, grayImg);


            UMat binaryImg = new UMat();

            //Find Potiential Plate Region
            CvInvoke.Threshold(grayImg, binaryImg, 200, 255, ThresholdType.BinaryInv);

            Image <Gray, Byte> binaryImgG = binaryImg.ToImage <Gray, Byte>();


            VectorOfVectorOfPoint contours = new VectorOfVectorOfPoint();

            int[,] hierachy = CvInvoke.FindContourTree(binaryImgG, contours, ChainApproxMethod.ChainApproxNone);

            int maxArea             = 0;
            int maxAreaContourIndex = 0;

            for (int idx = 0; idx < contours.Size; idx++)
            {
                //bool isChild = isChildContour(hierachy, idx);

                int numberOfChildren = GetNumberOfChildren(hierachy, idx);
                using (VectorOfPoint contour = contours[idx])
                {
                    if ((numberOfChildren > 3))
                    {
                        if (CvInvoke.ContourArea(contour) > maxArea)
                        {
                            maxAreaContourIndex = idx;
                        }
                    }
                }
            }


            Image <Gray, Byte> mask1 = new Image <Gray, Byte>(imgWidth, imgHeight);

            CvInvoke.DrawContours(mask1, contours, maxAreaContourIndex, new MCvScalar(255), -1);

            int openingFactor1           = 100;
            Image <Gray, Byte> plateMask = new Image <Gray, Byte>(imgWidth, imgHeight);

            plateMask = mask1.Erode(openingFactor1);
            plateMask = plateMask.Dilate(openingFactor1);

            CvBlobs        blobs         = new CvBlobs();
            CvBlobDetector blob_detector = new CvBlobDetector();

            //blobs.FilterByArea(10000, 1000000);
            blob_detector.Detect(plateMask, blobs);

            foreach (CvBlob blob in blobs.Values)
            {
                Rectangle r = blob.BoundingBox;

                outputImg.Draw(r, new Bgr(0, 255, 255), 4);
            }

            Image <Gray, Byte> invBinaryImgG = binaryImg.ToImage <Gray, Byte>();

            CvInvoke.BitwiseNot(invBinaryImgG, invBinaryImgG);


            Image <Gray, Byte> mask3 = plateMask.Clone();

            CvInvoke.BitwiseAnd(plateMask, invBinaryImgG, mask3);


            blob_detector.Detect(mask3, blobs);

            int patternSize = 20;
            int ballSize    = 60;
            int tolerance   = 10;

            int patternHigh = patternSize + tolerance;
            int patternLow  = patternSize - tolerance;

            int ballHigh = ballSize + tolerance * 2;
            int ballLow  = ballSize - tolerance * 2;

            blobs.FilterByArea(patternLow * patternLow, ballHigh * ballHigh);

            List <PointF> patternPoints             = new List <PointF>();
            PointF        ballPoint                 = new PointF();
            int           numberOfPatternPointFound = 0;

            foreach (CvBlob blob in blobs.Values)
            {
                Rectangle r = blob.BoundingBox;

                if ((r.Height > patternLow) && (r.Height < patternHigh) &&
                    (r.Width > patternLow) && (r.Width < patternHigh))
                {
                    outputImg.Draw(new CircleF(blob.Centroid, 2), new Bgr(0, 0, 255), 2);
                    patternPoints.Add(blob.Centroid);
                    numberOfPatternPointFound++;
                }

                if ((r.Height > ballLow) && (r.Height < ballHigh) &&
                    (r.Width > ballLow) && (r.Width < ballHigh))
                {
                    outputImg.Draw(new CircleF(blob.Centroid, 5), new Bgr(0, 0, 255), 5);
                    ballPoint = blob.Centroid;
                }
            }

            label14.Text = String.Format("{0}", numberOfPatternPointFound);
            List <PointF> sortedPatternPoints = new List <PointF>();
            // 1 for TopLeft - 2 for Top Right - 3 for Bottom Right - 4 for Bottom Left
            List <int> pointType = new List <int>();;

            PointF centerPoint = new PointF();

            foreach (PointF patternPoint in patternPoints)
            {
                centerPoint.X += patternPoint.X;
                centerPoint.Y += patternPoint.Y;
            }
            centerPoint.X /= numberOfPatternPointFound;
            centerPoint.Y /= numberOfPatternPointFound;

            x_position.Text = ballPoint.X.ToString();
            y_position.Text = ballPoint.Y.ToString();
            foreach (PointF patternPoint in patternPoints)
            {
                if ((patternPoint.X < centerPoint.X) && (patternPoint.Y < centerPoint.Y))
                {
                    sortedPatternPoints.Add(patternPoint);
                    pointType.Add(1);
                }
                else if ((patternPoint.X > centerPoint.X) && (patternPoint.Y < centerPoint.Y))
                {
                    sortedPatternPoints.Add(patternPoint);
                    pointType.Add(2);
                }
                else if ((patternPoint.X > centerPoint.X) && (patternPoint.Y > centerPoint.Y))
                {
                    sortedPatternPoints.Add(patternPoint);
                    pointType.Add(3);
                }
                else if ((patternPoint.X < centerPoint.X) && (patternPoint.Y > centerPoint.Y))
                {
                    sortedPatternPoints.Add(patternPoint);
                    pointType.Add(4);
                }
            }

            int id = 0;

            foreach (PointF patternPoint in sortedPatternPoints)
            {
                CvInvoke.PutText(outputImg,
                                 String.Format("{0}", pointType[id++]),
                                 new System.Drawing.Point((int)patternPoint.X, (int)patternPoint.Y),
                                 FontFace.HersheyComplex,
                                 1.0,
                                 new Bgr(0, 255, 0).MCvScalar);
            }



            imageBox1.Image = outputImg;
        }
Exemple #8
0
        int PixelCountExample()
        {
            double num1 = floatVariable1 / 2.0;
            double num2 = floatVariable4 / 2.0;
            double num3 = floatVariable2 / 100.0 * (double)byte.MaxValue;
            double num4 = floatVariable5 / 100.0 * (double)byte.MaxValue;
            double num5 = floatVariable3 / 100.0 * (double)byte.MaxValue;
            double num6 = floatVariable6 / 100.0 * (double)byte.MaxValue;

            Image <Hsv, byte> image1 = (Image <Hsv, byte>)null;
            Image <Hsv, byte> image2 = (Image <Hsv, byte>)null;

            //VideoCapture video = new VideoCapture(0);
            //video.SetCaptureProperty(CapProp.Focus, 150);
            ICapture capture = (ICapture)video;


            System.Threading.Thread.Sleep(2000);
            Mat    ImageMat = capture.QueryFrame();
            IImage image3   = (IImage)ImageMat;

            //image3.Save(@"C:\\Images\example.jpeg");
            image3 = new Image <Hsv, byte>(ImageMat.Bitmap);


            image2 = new Image <Hsv, byte>(image3.Bitmap);
            image1 = image2.Copy();
            int num7 = 0;
            Hsv hsv1 = new Hsv();
            Hsv hsv2 = new Hsv(120.0, (double)byte.MaxValue, (double)byte.MaxValue);

            for (int index1 = integerVariable2; index1 < integerVariable4; ++index1)
            {
                for (int index2 = integerVariable1; index2 < integerVariable3; ++index2)
                {
                    Hsv hsv3 = image2[index1, index2];
                    if (hsv3.Value >= num5 && hsv3.Value <= num6 && (hsv3.Satuation >= num3 && hsv3.Satuation <= num4))
                    {
                        if (num1 > num2)
                        {
                            if (hsv3.Hue >= num1 || hsv3.Hue <= num2)
                            {
                                ++num7;
                                if (booleanVariable)
                                {
                                    image1[index1, index2] = hsv2;
                                }
                            }
                        }
                        else if (hsv3.Hue >= num1 && hsv3.Hue <= num2)
                        {
                            ++num7;
                            if (booleanVariable)
                            {
                                image1[index1, index2] = hsv2;
                            }
                        }
                    }
                }
            }
            if (booleanVariable)
            {
                int       width  = integerVariable3 - integerVariable1;
                int       height = integerVariable4 - integerVariable2;
                Rectangle rect   = new Rectangle(integerVariable1, integerVariable2, width, height);
                image1.Draw(rect, new Hsv(0.0, 0.0, (double)byte.MaxValue), 1, Emgu.CV.CvEnum.LineType.EightConnected, 0);

                //ImageViewer imageViewer = new ImageViewer(image1.Bitmap, num7);
                //imageViewer.Show();
                pictureBox2.Image = image1.Bitmap;
            }

            return(num7);
        }
Exemple #9
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        void PerfromOCV()
        {
            string str1     = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz +-/1234567890{}()_<>\"\\;:*#%$&";
            string language = "eng";


            ICapture capture = (ICapture)video;

            System.Threading.Thread.Sleep(2000);
            Mat    ImageMat = capture.QueryFrame();
            IImage image1   = (IImage)ImageMat;  //"Argument0", "Image Object");

            language = "eng";                    //"Argument1", "OCR Language");
            int  integerVariable1 = 70;          //"Argument2", "Upper Left Corner X coordinate of ROI");
            int  integerVariable2 = 70;          //"Argument3", "Upper Left Corner Y coordinate of ROI");
            int  integerVariable3 = 70;          //"Argument4", "ROI Width (Number of Pixels");
            int  integerVariable4 = 70;          //"Argument5", "ROI Height (Number of Pixels");
            bool booleanVariable  = false;       //"Argument6", "Display Debug Window");

            Image <Bgr, byte> image2 = new Image <Bgr, byte>(image1.Bitmap);

            image2.ROI = new Rectangle(integerVariable1, integerVariable2, integerVariable3, integerVariable4);
            string str2 = @".\\tessdata";

            if (!Directory.Exists(str2))
            {
                Directory.CreateDirectory(str2);
            }
            HelperMethods.LoadLanguage(str2, language);
            HelperMethods.LoadLanguage(str2, "osd");
            //HelperMethods.LoadLanguage(str2, language);
            //string path = Path.GetFullPath(@"C:\Users\MarquezFr\source\repos\EmguOpenCVExample\EmguOpenCVExample\bin\Debug\tessdata\");
            var tesseract = new Tesseract(Path.GetFullPath(str2.Length == 0 || str2.Substring(str2.Length - 1, 1).Equals(Path.DirectorySeparatorChar.ToString()) ? str2 : string.Format("{0}{1}", (object)str2, (object)Path.DirectorySeparatorChar)), language, OcrEngineMode.Default);

            tesseract.Init(Path.GetFullPath(str2.Length == 0 || str2.Substring(str2.Length - 1, 1).Equals(Path.DirectorySeparatorChar.ToString()) ? str2 : string.Format("{0}{1}", (object)str2, (object)Path.DirectorySeparatorChar)), language, OcrEngineMode.Default);
            //Tesseract tesseract = new Tesseract(path, language, OcrEngineMode.TesseractOnly);
            tesseract.SetVariable("tessedit_char_whitelist", str1);
            Image <Bgr, byte> image3 = new Image <Bgr, byte>(image2.Bitmap);

            if (image1.NumberOfChannels == 1)
            {
                CvInvoke.CvtColor((IInputArray)image2, (IOutputArray)image3, ColorConversion.Gray2Bgr, 0);
            }
            else
            {
                //image3 = (Image<Bgr, byte>)image1.Clone(); //original
                image3 = image1.Clone() as Image <Bgr, byte>;
            }
            //tesseract.SetImage((IInputArray)image3); original
            tesseract.SetImage((IInputArray)image3);
            if (tesseract.Recognize() != 0)
            {
                MessageBox.Show(string.Format("OpenCV_PerformOCR: OCR system failed to recognize image. OCR returned: {0}", (object)tesseract.Recognize()));
            }
            string utF8Text = tesseract.GetUTF8Text();

            char[] separator = new char[3]
            {
                ' ',
                '\r',
                '\n'
            };
            int length = utF8Text.Split(separator, StringSplitOptions.RemoveEmptyEntries).Length;

            if (booleanVariable)
            {
                //ImageViewer imageViewer = new ImageViewer((IImage)image2);
                //int num = (int)imageViewer.ShowDialog();
                //imageViewer.Dispose();
            }
            image2.Dispose();
            image3.Dispose();
            tesseract.Dispose();
        }