static public Calibrator GetCalibrator(CalibratorType type) { return(new CalibratorE()); #if false switch (type) { case CalibratorType.A: return(new CalibratorA()); case CalibratorType.B: return(new CalibratorB()); case CalibratorType.C: return(new CalibratorC()); case CalibratorType.D: return(new CalibratorD()); case CalibratorType.E: return(new CalibratorE()); default: return(null); } #endif }
public string cal_Description(CalibratorType calType) { return("Calibrator E"); #if false switch (calType) { case CalibratorType.A: return("Calibrator A"); case CalibratorType.B: return("Calibrator B"); case CalibratorType.C: return("Calibrator C"); case CalibratorType.D: return("Calibrator D"); case CalibratorType.E: return("Calibrator E"); default: return(null); } #endif }
public void ReadXml(XmlReader r, PointF scale, Size imageSize) { r.ReadStartElement(); while (r.NodeType == XmlNodeType.Element) { switch (r.Name) { case "CalibrationPlane": calibratorType = CalibratorType.Plane; calibrator = calibrationPlane; calibrationPlane.ReadPlaneXml(r, scale); ComputeCoordinateSystemGrid(); break; case "CalibrationLine": calibratorType = CalibratorType.Line; //calibrator = calibrationLine; calibrator = calibrationPlane; calibrationPlane.ReadLineXml(r, scale); //calibrationLine.ReadXml(r, scale); break; case "CalibrationDrawingId": Guid result; bool parsed = Guid.TryParse(r.ReadElementContentAsString(), out result); if (parsed) { calibrationDrawingId = result; } break; case "Unit": lengthUnit = (LengthUnit)Enum.Parse(typeof(LengthUnit), r.ReadElementContentAsString()); break; case "CameraCalibration": DistortionParameters parameters = DistortionSerializer.Deserialize(r, imageSize); distortionHelper.Initialize(parameters, imageSize); break; default: string unparsed = r.ReadOuterXml(); log.DebugFormat("Unparsed content in KVA XML: {0}", unparsed); break; } } r.ReadEndElement(); AfterCalibrationChanged(); }
public void Reset() { SetOrigin(imageSize.Center()); calibratorType = CalibratorType.Line; calibrationLine = new CalibrationLine(); calibrator = calibrationLine; distortionHelper = new DistortionHelper(); lengthUnit = LengthUnit.Pixels; speedUnit = SpeedUnit.PixelsPerSecond; accelerationUnit = AccelerationUnit.PixelsPerSecondSquared; ComputeCoordinateSystemGrid(); }
public void SetCalibratorFromType(CalibratorType type) { // Used by calibration dialogs to force a calibration method for further computations. // Each time the user calibrates, we switch to the method he just used. calibratorType = type; switch (type) { case CalibratorType.Line: calibrator = calibrationLine; break; case CalibratorType.Plane: calibrator = calibrationPlane; break; } }
public void Reset() { calibratorType = CalibratorType.Line; calibrationPlane = new CalibrationPlane(); PointF center = imageSize.Center(); calibrationPlane.Initialize(100, center, new PointF(center.X + 100, center.Y), CalibrationAxis.LineHorizontal); calibrator = calibrationPlane; distortionHelper = new DistortionHelper(); lengthUnit = LengthUnit.Pixels; ComputeCoordinateSystemGrid(); }
public void Reset() { calibratorType = CalibratorType.Line; calibrationPlane = new CalibrationPlane(); PointF center = imageSize.Center(); calibrationPlane.Initialize(100, center, new PointF(center.X + 100, center.Y)); //SetOrigin(imageSize.Center()); calibrator = calibrationPlane; distortionHelper = new DistortionHelper(); lengthUnit = LengthUnit.Pixels; speedUnit = SpeedUnit.PixelsPerSecond; accelerationUnit = AccelerationUnit.PixelsPerSecondSquared; ComputeCoordinateSystemGrid(); }
public void SetCalibratorFromType(CalibratorType type) { // Used by calibration dialogs to force a calibration method for further computations. // Each time the user calibrates, we switch to the method he just used. calibratorType = type; }