Esempio n. 1
0
 private void saveImageToolStripMenuItem_Click(object sender, EventArgs e)
 {
     if (saveImageToFileDialog.ShowDialog() == DialogResult.OK)
     {
         try
         {
             if (this.InvokeRequired)
             {
                 this.Invoke((Action)
                             delegate()
                 {
                     using (InputArray ia = DisplayedImage.GetInputArray())
                         using (Mat mat = ia.GetMat())
                         {
                             mat.Save(saveImageToFileDialog.FileName);
                         }
                 });
             }
             else
             {
                 using (InputArray ia = DisplayedImage.GetInputArray())
                     using (Mat mat = ia.GetMat())
                     {
                         mat.Save(saveImageToFileDialog.FileName);
                     }
             }
         }
         catch (Exception excpt)
         {
             MessageBox.Show(excpt.Message);
         }
     }
 }
        public override bool run()
        {
            InputArray m = InputArray.Create <double>(matrix, MatType.CV_64FC1);
            double     d1, d2, d3, d4, d5, d6;

            evaluateMatrix(m.GetMat(), out d1, out d2, out d3, out d4, out d5, out d6);
            dst = src.WarpAffine(m, src.Size(), InterpolationFlags.Lanczos4, BorderTypes.Constant);
            return(true);
        }
Esempio n. 3
0
        // ROI: Region of Interest
        private bool myDetector(InputArray image, out System.Drawing.Rectangle[] ROIs)
        {
            Mat gray = null;

            // Convert multi-channel BGR image to gray
            if (image.GetChannels() > 1)
            {
                CvInvoke.CvtColor(image.GetMat(), gray, ColorConversion.Bgr2Gray);
            }
            else
            {
                gray = image.GetMat().Clone();
            }

            CvInvoke.EqualizeHist(gray, gray);
            ROIs = faceCsc.DetectMultiScale(gray, 1.1, 3, Size.Empty);
            return(true);
        }
Esempio n. 4
0
        public override void SetImage(IInputArray image)
        {
            if (image == null)
            {
                Xamarin.Forms.Device.BeginInvokeOnMainThread(() =>
                {
                    _imageView.SetImageBitmap(null);
                });
                return;
            }

            int    bufferIdx = _renderBufferIdx;
            Bitmap buffer;

            _renderBufferIdx = (_renderBufferIdx + 1) % _renderBuffer.Length;

            using (InputArray iaImage = image.GetInputArray())
                using (Mat mat = iaImage.GetMat())
                {
                    if (_renderBuffer[bufferIdx] == null)
                    {
                        buffer = mat.ToBitmap();
                        _renderBuffer[bufferIdx] = buffer;
                    }
                    else
                    {
                        var size = iaImage.GetSize();
                        buffer = _renderBuffer[bufferIdx];
                        if (buffer.Width != size.Width || buffer.Height != size.Height)
                        {
                            buffer.Dispose();
                            _renderBuffer[bufferIdx] = mat.ToBitmap();
                        }
                        else
                        {
                            mat.ToBitmap(buffer);
                        }
                    }
                }

            Xamarin.Forms.Device.BeginInvokeOnMainThread(() =>
            {
                _imageView.SetImageBitmap(buffer);
            });
        }
        /// <summary>
        /// Convert an IImage to a WPF BitmapSource. The result can be used in the Set Property of Image.Source
        /// </summary>
        /// <param name="image">The Emgu CV Image</param>
        /// <returns>The equivalent BitmapSource</returns>
        public static BitmapSource ToBitmapSource(IInputArray image)
        {
            using (InputArray ia = image.GetInputArray())
                using (Mat m = ia.GetMat())
                    using (System.Drawing.Bitmap source = m.Bitmap)
                    {
                        IntPtr ptr = source.GetHbitmap(); //obtain the Hbitmap

                        BitmapSource bs = System.Windows.Interop.Imaging.CreateBitmapSourceFromHBitmap(
                            ptr,
                            IntPtr.Zero,
                            Int32Rect.Empty,
                            System.Windows.Media.Imaging.BitmapSizeOptions.FromEmptyOptions());

                        DeleteObject(ptr); //release the HBitmap
                        return(bs);
                    }
        }
Esempio n. 6
0
 public void SetImage(IInputArray image)
 {
     InvokeOnMainThread(delegate
     {
         using (InputArray iaImage = image.GetInputArray())
             using (Mat mat = iaImage.GetMat())
                 using (UIImage i = mat.ToUIImage())
                 {
                     _imageView.Frame = new CGRect(
                         CGPoint.Empty,
                         i.Size
                         );
                     _imageView.Image = i;
                     _imageView.SetNeedsDisplay();
                     ReloadData();
                 }
     });
 }
Esempio n. 7
0
        private static void DrawMask(IInputOutputArray image, Mat mask, Rectangle rect, MCvScalar color)
        {
            using (Mat maskLarge = new Mat())
                using (Mat maskLargeInv = new Mat())
                    using (InputArray iaImage = image.GetInputArray())
                        using (Mat matImage = iaImage.GetMat())
                            using (Mat subRegion = new Mat(matImage, rect))
                                using (Mat largeColor = new Mat(
                                           subRegion.Size,
                                           Emgu.CV.CvEnum.DepthType.Cv8U,
                                           3))
                                {
                                    CvInvoke.Resize(mask, maskLarge, rect.Size);

                                    //give the mask at least 30% transparency
                                    using (ScalarArray sa = new ScalarArray(0.7))
                                        CvInvoke.Min(sa, maskLarge, maskLarge);

                                    //Create the inverse mask for the original image
                                    using (ScalarArray sa = new ScalarArray(1.0))
                                        CvInvoke.Subtract(sa, maskLarge, maskLargeInv);

                                    //The mask color
                                    largeColor.SetTo(color);
                                    if (subRegion.NumberOfChannels == 4)
                                    {
                                        using (Mat bgrSubRegion = new Mat())
                                        {
                                            CvInvoke.CvtColor(subRegion, bgrSubRegion,
                                                              ColorConversion.Bgra2Bgr);
                                            CvInvoke.BlendLinear(largeColor, bgrSubRegion, maskLarge,
                                                                 maskLargeInv, bgrSubRegion);
                                            CvInvoke.CvtColor(bgrSubRegion, subRegion,
                                                              ColorConversion.Bgr2Bgra);
                                        }
                                    }
                                    else
                                    {
                                        CvInvoke.BlendLinear(largeColor, subRegion, maskLarge, maskLargeInv,
                                                             subRegion);
                                    }
                                }
        }
Esempio n. 8
0
        /// <summary>
        /// Set the mouse position over the image.
        /// It also set the color intensity of the pixel on the image where is mouse is at
        /// </summary>
        /// <param name="location">The location of the mouse on the image</param>
        public void SetMousePositionOnImage(Point location)
        {
            IInputArray img = _imageBox.DisplayedImage;

            using (InputArray iaImage = img.GetInputArray())
            {
                Size size = iaImage.GetSize();
                location.X = Math.Max(Math.Min(location.X, size.Width - 1), 0);
                location.Y = Math.Max(Math.Min(location.Y, size.Height - 1), 0);

                mousePositionTextbox.Text = location.ToString();

                if (_imageType == typeof(CvArray <>))
                {
                    using (Mat mat = iaImage.GetMat())
                    {
                        RenderIntensityForMat(mat, location);
                    }
                }
                else if (_imageType == typeof(Mat))
                {
                    Mat mat = img as Mat;
                    RenderIntensityForMat(mat, location);
                }
                else if (_imageType == typeof(UMat))
                {
                    UMat umat = img as UMat;
                    using (Mat mat = umat.GetMat(AccessType.Read))
                    {
                        RenderIntensityForMat(mat, location);
                    }
                }
                else
                {
                    colorIntensityTextbox.Text = String.Empty;
                }
            }
        }
Esempio n. 9
0
        public string ProcessAndRender(IInputArray imageIn, IInputOutputArray imageOut)
        {
            Stopwatch watch = Stopwatch.StartNew();

            #region Pre-processing
            //Convert the image to grayscale and filter out the noise
            CvInvoke.CvtColor(imageIn, _gray, ColorConversion.Bgr2Gray);
            //Remove noise
            CvInvoke.GaussianBlur(_gray, _gray, new Size(3, 3), 1);
            double cannyThreshold        = 180.0;
            double cannyThresholdLinking = 120.0;
            CvInvoke.Canny(_gray, _cannyEdges, cannyThreshold, cannyThresholdLinking);
            #endregion

            #region circle detection
            double    circleAccumulatorThreshold = 120;
            CircleF[] circles = CvInvoke.HoughCircles(_gray, HoughModes.Gradient, 2.0, 20.0, cannyThreshold,
                                                      circleAccumulatorThreshold, 5);
            #endregion

            #region Edge detection
            LineSegment2D[] lines = CvInvoke.HoughLinesP(
                _cannyEdges,
                1,              //Distance resolution in pixel-related units
                Math.PI / 45.0, //Angle resolution measured in radians.
                20,             //threshold
                30,             //min Line width
                10);            //gap between lines
            #endregion

            #region Find triangles and rectangles
            List <Triangle2DF> triangleList = new List <Triangle2DF>();
            List <RotatedRect> boxList      = new List <RotatedRect>(); //a box is a rotated rectangle
            using (VectorOfVectorOfPoint contours = new VectorOfVectorOfPoint())
            {
                CvInvoke.FindContours(_cannyEdges, contours, null, RetrType.List,
                                      ChainApproxMethod.ChainApproxSimple);
                int count = contours.Size;
                for (int i = 0; i < count; i++)
                {
                    using (VectorOfPoint contour = contours[i])
                        using (VectorOfPoint approxContour = new VectorOfPoint())
                        {
                            CvInvoke.ApproxPolyDP(contour, approxContour, CvInvoke.ArcLength(contour, true) * 0.05,
                                                  true);
                            if (CvInvoke.ContourArea(approxContour, false) > 250
                                )                            //only consider contours with area greater than 250
                            {
                                if (approxContour.Size == 3) //The contour has 3 vertices, it is a triangle
                                {
                                    Point[] pts = approxContour.ToArray();
                                    triangleList.Add(new Triangle2DF(
                                                         pts[0],
                                                         pts[1],
                                                         pts[2]
                                                         ));
                                }
                                else if (approxContour.Size == 4) //The contour has 4 vertices.
                                {
                                    #region determine if all the angles in the contour are within [80, 100] degree

                                    bool            isRectangle = true;
                                    Point[]         pts         = approxContour.ToArray();
                                    LineSegment2D[] edges       = PointCollection.PolyLine(pts, true);

                                    for (int j = 0; j < edges.Length; j++)
                                    {
                                        double angle = Math.Abs(
                                            edges[(j + 1) % edges.Length].GetExteriorAngleDegree(edges[j]));
                                        if (angle < 80 || angle > 100)
                                        {
                                            isRectangle = false;
                                            break;
                                        }
                                    }

                                    #endregion

                                    if (isRectangle)
                                    {
                                        boxList.Add(CvInvoke.MinAreaRect(approxContour));
                                    }
                                }
                            }
                        }
                }
            }
            #endregion

            watch.Stop();

            using (Mat triangleRectangleImage = new Mat(_gray.Size, DepthType.Cv8U, 3)) //image to draw triangles and rectangles on
                using (Mat circleImage = new Mat(_gray.Size, DepthType.Cv8U, 3))        //image to draw circles on
                    using (Mat lineImage = new Mat(_gray.Size, DepthType.Cv8U, 3))      //image to draw lines on
                    {
                        #region draw triangles and rectangles

                        triangleRectangleImage.SetTo(new MCvScalar(0));
                        foreach (Triangle2DF triangle in triangleList)
                        {
                            CvInvoke.Polylines(triangleRectangleImage,
                                               Array.ConvertAll(triangle.GetVertices(), Point.Round),
                                               true, new Bgr(Color.DarkBlue).MCvScalar, 2);
                        }

                        foreach (RotatedRect box in boxList)
                        {
                            CvInvoke.Polylines(triangleRectangleImage, Array.ConvertAll(box.GetVertices(), Point.Round),
                                               true,
                                               new Bgr(Color.DarkOrange).MCvScalar, 2);
                        }

                        //Drawing a light gray frame around the image
                        CvInvoke.Rectangle(triangleRectangleImage,
                                           new Rectangle(Point.Empty,
                                                         new Size(triangleRectangleImage.Width - 1, triangleRectangleImage.Height - 1)),
                                           new MCvScalar(120, 120, 120));
                        //Draw the labels
                        CvInvoke.PutText(triangleRectangleImage, "Triangles and Rectangles", new Point(20, 20),
                                         FontFace.HersheyDuplex, 0.5, new MCvScalar(120, 120, 120));

                        #endregion

                        #region draw circles

                        circleImage.SetTo(new MCvScalar(0));
                        foreach (CircleF circle in circles)
                        {
                            CvInvoke.Circle(circleImage, Point.Round(circle.Center), (int)circle.Radius,
                                            new Bgr(Color.Brown).MCvScalar, 2);
                        }

                        //Drawing a light gray frame around the image
                        CvInvoke.Rectangle(circleImage,
                                           new Rectangle(Point.Empty, new Size(circleImage.Width - 1, circleImage.Height - 1)),
                                           new MCvScalar(120, 120, 120));
                        //Draw the labels
                        CvInvoke.PutText(circleImage, "Circles", new Point(20, 20), FontFace.HersheyDuplex, 0.5,
                                         new MCvScalar(120, 120, 120));

                        #endregion

                        #region draw lines

                        lineImage.SetTo(new MCvScalar(0));
                        foreach (LineSegment2D line in lines)
                        {
                            CvInvoke.Line(lineImage, line.P1, line.P2, new Bgr(Color.Green).MCvScalar, 2);
                        }
                        //Drawing a light gray frame around the image
                        CvInvoke.Rectangle(lineImage,
                                           new Rectangle(Point.Empty, new Size(lineImage.Width - 1, lineImage.Height - 1)),
                                           new MCvScalar(120, 120, 120));
                        //Draw the labels
                        CvInvoke.PutText(lineImage, "Lines", new Point(20, 20), FontFace.HersheyDuplex, 0.5,
                                         new MCvScalar(120, 120, 120));

                        #endregion


                        using (InputArray iaImageIn = imageIn.GetInputArray())
                            using (Mat imageInMat = iaImageIn.GetMat())
                                CvInvoke.VConcat(new Mat[] { imageInMat, triangleRectangleImage, circleImage, lineImage }, imageOut);
                    }
            return(String.Format("Detected in {0} milliseconds.", watch.ElapsedMilliseconds));
        }
Esempio n. 10
0
        /// <summary>
        /// Generate histograms for the image. One histogram is generated for each color channel.
        /// You will need to call the Refresh function to do the painting afterward.
        /// </summary>
        /// <param name="image">The image to generate histogram from</param>
        /// <param name="numberOfBins">The number of bins for each histogram</param>
        public void GenerateHistograms(IInputArray image, int numberOfBins)
        {
            using (InputArray iaImage = image.GetInputArray())
            {
                int   channelCount = iaImage.GetChannels();
                Mat[] channels     = new Mat[channelCount];
                Type  imageType;
                if ((imageType = Toolbox.GetBaseType(image.GetType(), "Image`2")) != null ||
                    (imageType = Toolbox.GetBaseType(image.GetType(), "Mat")) != null ||
                    (imageType = Toolbox.GetBaseType(image.GetType(), "UMat")) != null)
                {
                    for (int i = 0; i < channelCount; i++)
                    {
                        Mat channel = new Mat();
                        CvInvoke.ExtractChannel(image, channel, i);
                        channels[i] = channel;
                    }
                }
                else if ((imageType = Toolbox.GetBaseType(image.GetType(), "CudaImage`2")) != null)
                {
                    using (Mat img = imageType.GetMethod("ToMat").Invoke(image, null) as Mat)
                        for (int i = 0; i < channelCount; i++)
                        {
                            Mat channel = new Mat();
                            CvInvoke.ExtractChannel(img, channel, i);
                            channels[i] = channel;
                        }
                }
                else
                {
                    throw new ArgumentException(String.Format("The input image type of {0} is not supported",
                                                              image.GetType().ToString()));
                }

                Type[]   genericArguments = imageType.GetGenericArguments();
                String[] channelNames;
                Color[]  colors;
                Type     typeOfDepth;
                if (genericArguments.Length > 0)
                {
                    IColor typeOfColor = Activator.CreateInstance(genericArguments[0]) as IColor;
                    channelNames = Reflection.ReflectColorType.GetNamesOfChannels(typeOfColor);
                    colors       = Reflection.ReflectColorType.GetDisplayColorOfChannels(typeOfColor);
                    typeOfDepth  = imageType.GetGenericArguments()[1];
                }
                else
                {
                    channelNames = new String[channelCount];
                    colors       = new Color[channelCount];
                    for (int i = 0; i < channelCount; i++)
                    {
                        channelNames[i] = String.Format("Channel {0}", i);
                        colors[i]       = Color.Red;
                    }

                    if (image is Mat)
                    {
                        typeOfDepth = CvInvoke.GetDepthType(((Mat)image).Depth);
                    }
                    else if (image is UMat)
                    {
                        typeOfDepth = CvInvoke.GetDepthType(((UMat)image).Depth);
                    }
                    else
                    {
                        throw new ArgumentException(String.Format(
                                                        "Unable to get the type of depth from image of type {0}", image.GetType().ToString()));
                    }
                }

                float minVal, maxVal;

                #region Get the maximum and minimum color intensity values

                if (typeOfDepth == typeof(Byte))
                {
                    minVal = 0.0f;
                    maxVal = 256.0f;
                }
                else
                {
                    #region obtain the maximum and minimum color value
                    double[] minValues, maxValues;
                    Point[]  minLocations, maxLocations;
                    using (InputArray ia = image.GetInputArray())
                        using (Mat m = ia.GetMat())
                        {
                            m.MinMax(out minValues, out maxValues, out minLocations, out maxLocations);

                            double min = minValues[0], max = maxValues[0];
                            for (int i = 1; i < minValues.Length; i++)
                            {
                                if (minValues[i] < min)
                                {
                                    min = minValues[i];
                                }
                                if (maxValues[i] > max)
                                {
                                    max = maxValues[i];
                                }
                            }

                            minVal = (float)min;
                            maxVal = (float)max;
                        }
                    #endregion
                }
                #endregion

                Mat[] histograms = new Mat[channels.Length];
                for (int i = 0; i < channels.Length; i++)
                {
                    //using (DenseHistogram hist = new DenseHistogram(numberOfBins, new RangeF(minVal, maxVal)))
                    using (Mat hist = new Mat())
                        using (Util.VectorOfMat vm = new Util.VectorOfMat())
                        {
                            vm.Push(channels[i]);

                            float[] ranges = new float[] { minVal, maxVal };
                            CvInvoke.CalcHist(vm, new int[] { 0 }, null, hist, new int[] { numberOfBins }, ranges, false);
                            //hist.Calculate(new IImage[1] { channels[i] }, true, null);
                            histograms[i] = GenerateHistogram(channelNames[i], colors[i], hist, numberOfBins, ranges);
                        }
                }

                if (histograms.Length == 1)
                {
                    this.Image = histograms[0];
                }
                else
                {
                    int maxWidth    = 0;
                    int totalHeight = 0;
                    for (int i = 0; i < histograms.Length; i++)
                    {
                        maxWidth     = Math.Max(maxWidth, histograms[i].Width);
                        totalHeight += histograms[i].Height;
                    }
                    Mat concated = new Mat(new Size(maxWidth, totalHeight), histograms[0].Depth, histograms[0].NumberOfChannels);

                    int currentY = 0;
                    for (int i = 0; i < histograms.Length; i++)
                    {
                        using (Mat roi = new Mat(concated, new Rectangle(new Point(0, currentY), histograms[i].Size)))
                        {
                            histograms[i].CopyTo(roi);
                        }
                        currentY += histograms[i].Height;
                        histograms[i].Dispose();
                    }

                    this.Image = concated;
                }
            }
        }
        /// <summary>
        /// Detect vehicle from the given image
        /// </summary>
        /// <param name="image">The image</param>
        /// <returns>The detected vehicles.</returns>
        public Vehicle[] Detect(IInputArray image)
        {
            float vehicleConfidenceThreshold      = 0.5f;
            float licensePlateConfidenceThreshold = 0.5f;


            double    scale   = 1.0;
            MCvScalar meanVal = new MCvScalar();

            List <Vehicle>      vehicles = new List <Vehicle>();
            List <LicensePlate> plates   = new List <LicensePlate>();

            using (InputArray iaImage = image.GetInputArray())
                using (Mat iaImageMat = iaImage.GetMat())
                    foreach (DetectedObject vehicleOrPlate in _vehicleLicensePlateDetectionModel.Detect(image, 0.0f, 0.0f))
                    {
                        Rectangle region = vehicleOrPlate.Region;

                        if (vehicleOrPlate.ClassId == 1 && vehicleOrPlate.Confident > vehicleConfidenceThreshold)
                        {
                            //this is a vehicle
                            Vehicle v = new Vehicle();
                            v.Region = region;

                            #region find out the type and color of the vehicle

                            using (Mat vehicle = new Mat(iaImageMat, region))
                                using (VectorOfMat vm = new VectorOfMat(2))
                                {
                                    _vehicleAttrRecognizerModel.Predict(vehicle, vm);
                                    //_vehicleAttrRecognizer.Forward(vm, new string[] { "color", "type" });
                                    using (Mat vehicleColorMat = vm[0])
                                        using (Mat vehicleTypeMat = vm[1])
                                        {
                                            float[] vehicleColorData = vehicleColorMat.GetData(false) as float[];
                                            float   maxProbColor     = vehicleColorData.Max();
                                            int     maxIdxColor      = Array.IndexOf(vehicleColorData, maxProbColor);
                                            v.Color = _colorName[maxIdxColor];
                                            float[] vehicleTypeData = vehicleTypeMat.GetData(false) as float[];
                                            float   maxProbType     = vehicleTypeData.Max();
                                            int     maxIdxType      = Array.IndexOf(vehicleTypeData, maxProbType);
                                            v.Type = _vehicleType[maxIdxType];
                                        }
                                }
                            #endregion

                            vehicles.Add(v);
                        }
                        else if (vehicleOrPlate.ClassId == 2 && vehicleOrPlate.Confident > licensePlateConfidenceThreshold)
                        {
                            //this is a license plate
                            LicensePlate p = new LicensePlate();
                            p.Region = region;

                            #region OCR on license plate
                            using (Mat plate = new Mat(iaImageMat, region))
                            {
                                using (Mat inputBlob = DnnInvoke.BlobFromImage(
                                           plate,
                                           scale,
                                           new Size(94, 24),
                                           meanVal,
                                           false,
                                           false,
                                           DepthType.Cv32F))
                                {
                                    _ocr.SetInput(inputBlob, "data");
                                    using (Mat output = _ocr.Forward("decode"))
                                    {
                                        float[]       plateValue = output.GetData(false) as float[];
                                        StringBuilder licensePlateStringBuilder = new StringBuilder();
                                        foreach (int j in plateValue)
                                        {
                                            if (j >= 0)
                                            {
                                                licensePlateStringBuilder.Append(_plateText[j]);
                                            }
                                        }

                                        p.Text = licensePlateStringBuilder.ToString();
                                    }
                                }
                            }
                            #endregion

                            plates.Add(p);
                        }
                    }

            foreach (LicensePlate p in plates)
            {
                foreach (Vehicle v in vehicles)
                {
                    if (v.ContainsPlate(p))
                    {
                        v.LicensePlate = p;
                        break;
                    }
                }
            }

            return(vehicles.ToArray());
        }