/// <summary> /// Saves the specified image. /// </summary> /// <typeparam name="TColor">Image color.</typeparam> /// <param name="image">Image to save.</param> /// <param name="fileName">Image filename.</param> private unsafe static void Save <TColor>(this Image <TColor> image, string fileName) where TColor : struct, IColor { var iplImage = image.AsOpenCvImage(); CvHighGuiInvoke.cvSaveImage(fileName, &iplImage, IntPtr.Zero); }
/// <summary> /// Releases all resources allocated by capture. /// </summary> public override void Close() { if (capturePtr != IntPtr.Zero) { CvHighGuiInvoke.cvReleaseCapture(ref capturePtr); } }
/// <summary> /// Closes video writer. /// <para>Use dispose method to remove any additional resources.</para> /// </summary> public override void Close() { if (videoObjPtr != IntPtr.Zero) { CvHighGuiInvoke.cvReleaseVideoWriter(ref videoObjPtr); } }
/// <summary> /// Writes the provided image to the stream. /// </summary> /// <param name="image">Image to write.</param> /// <returns>True, if the operation was successful, false otherwise.</returns> protected unsafe override bool WriteInternal(IImage image) { bool isSuccessful; lock (syncObj) { if (image.ColorInfo.ChannelCount == 3 && !ColorFrames) { throw new Exception("Image must be grayscale!"); } if (image.ColorInfo.ChannelCount == 1 && ColorFrames) { throw new Exception("Image must be color!"); } if (!image.Size.Equals(FrameSize)) { throw new Exception("Input image must be the same size as defined frame size!"); } this.Position++; var iplImg = image.AsOpenCvImage(); IplImage *iplImgPtr = (IplImage *)&iplImg; isSuccessful = CvHighGuiInvoke.cvWriteFrame(videoObjPtr, (IntPtr)iplImgPtr); } return(isSuccessful); }
/// <summary> /// Sets the position within the current stream. /// <para>Warning: the underlying OpenCV function seeks to nearest key-frame, therefore the seek operation may not be frame-accurate.</para> /// </summary> /// <param name="offset">A frame index offset relative to the origin parameter.</param> /// <param name="origin">A value of type System.IO.SeekOrigin indicating the reference point used to obtain the new position.</param> /// <returns>The new position within the current stream.</returns> public override long Seek(long offset, System.IO.SeekOrigin origin = SeekOrigin.Current) { var frameIndex = base.Seek(offset, origin); CvHighGuiInvoke.cvSetCaptureProperty(capturePtr, CaptureProperty.PosFrames, frameIndex); return(Position); }
public static Size GetImageSize(IntPtr capturePtr) { return(new Size { Width = (int)CvHighGuiInvoke.cvGetCaptureProperty(capturePtr, CaptureProperty.FrameWidth), Height = (int)CvHighGuiInvoke.cvGetCaptureProperty(capturePtr, CaptureProperty.FrameHeight) }); }
/// <summary> /// Saves the specified image. /// </summary> /// <typeparam name="TColor">Image color.</typeparam> /// <param name="image">Image to save.</param> /// <param name="fileName">Image filename.</param> private unsafe static void Save <TColor>(this TColor[,] image, string fileName) where TColor : struct, IColor { using (var img = image.Lock()) { var iplImage = img.AsOpenCvImage(); CvHighGuiInvoke.cvSaveImage(fileName, &iplImage, IntPtr.Zero); } }
public static bool SetImageSize(IntPtr capturePtr, Size newSize) { bool success; success = CvHighGuiInvoke.cvSetCaptureProperty(capturePtr, CaptureProperty.FrameWidth, newSize.Width); success &= CvHighGuiInvoke.cvSetCaptureProperty(capturePtr, CaptureProperty.FrameHeight, newSize.Height); return(success); }
/// <summary> /// Opens the video file stream. /// </summary> public override void Open() { if (videoObjPtr != IntPtr.Zero) { return; } videoObjPtr = CvHighGuiInvoke.cvCreateVideoWriter(OutputFileName, (int)Codec, FrameRate, FrameSize, ColorFrames); if (videoObjPtr == IntPtr.Zero) { throw new Exception(String.Format("Cannot open FileStream! Please check that the selected codec ({0}) is supported.", Codec)); } }
/// <summary> /// Opens the video file stream. /// </summary> public override void Open() { if (capturePtr != IntPtr.Zero) { return; } capturePtr = CvHighGuiInvoke.cvCreateFileCapture(fileName); if (capturePtr == IntPtr.Zero) { throw new Exception("Cannot open FileStream!"); } }
/// <summary> /// Opens the camera stream. /// </summary> public override void Open() { if (capturePtr != IntPtr.Zero) { return; } capturePtr = CvHighGuiInvoke.cvCreateCameraCapture(cameraIdx); if (capturePtr == IntPtr.Zero) { throw new Exception("Cannot open camera stream! It seems that camera device can not be found."); } }
//TODO: Load overloads for float, double... ?? //TODO: add imDecode, imEncode (requires CvMat implementation) private unsafe static IImage load(string fileName, ImageLoadType imageLoadType) { var iplImagePtr = CvHighGuiInvoke.cvLoadImage(fileName, imageLoadType); var image = (*iplImagePtr).AsImage((_) => { if (iplImagePtr == null) { return; } CvHighGuiInvoke.cvReleaseImage(ref iplImagePtr); }); return(image); }
/// <summary> /// Saves the provided image. If the image has non-supported color or depth false value is returned. /// </summary> /// <param name="image">Image to save.</param> /// <param name="fileName">Filename.</param> /// <returns>True if the image is saved, false otherwise.</returns> public unsafe static bool TrySave(IImage image, string fileName) { IplImage iplImage = default(IplImage); try { iplImage = image.AsOpenCvImage(); } catch { return(false); } CvHighGuiInvoke.cvSaveImage(fileName, &iplImage, IntPtr.Zero); return(true); }
/// <summary> /// Reads the next image in the stream and advances the position by one. /// </summary> /// <param name="image">Read image.</param> /// <returns>True if the reading operation was successful, false otherwise.</returns> protected override bool ReadInternal(out IImage image) { bool status = false; image = default(IImage); lock (syncObj) { IntPtr cvFramePtr; cvFramePtr = CvHighGuiInvoke.cvQueryFrame(capturePtr); if (cvFramePtr != IntPtr.Zero) { image = IplImage.FromPointer(cvFramePtr).AsImage(); this.Position++; status = true; } } return(status); }