void Init(synesis.CombinedMarkerCalibration cCalibration) { matrixFormat = new MatrixValue(synesis.MatrixFormat.Item1); if (cCalibration.CombinedMarkers.Count() != 1) { return; } physicalHeight = cCalibration.CombinedMarkers[0].Height; physicalWidth = cCalibration.CombinedMarkers[0].Width; if (cCalibration.CombinedMarkers[0].Rectangles.Count() != 2) { return; } unitedMarker1 = new UnitedMarker(cCalibration.CombinedMarkers[0].Rectangles[0], 1); unitedMarker2 = new UnitedMarker(cCalibration.CombinedMarkers[0].Rectangles[1], 2); }
void Init(synesis.HeightMarkerCalibration hCalibration) { FocalLength = hCalibration.FocalLength; MatrixFormat = new MatrixValue(hCalibration.MatrixFormat); if (hCalibration.HeightMarkers.Count() != 1) { return; } physicalHeight = hCalibration.HeightMarkers[0].Height; physicalWidth = physicalHeight; if (hCalibration.HeightMarkers[0].SurfaceNormals.Count() != 2) { return; } unitedMarker1 = new UnitedMarker(hCalibration.HeightMarkers[0].SurfaceNormals[0], 1); unitedMarker2 = new UnitedMarker(hCalibration.HeightMarkers[0].SurfaceNormals[1], 2); }
void Init(synesis.CombinedMarkerCalibration cCalibration) { matrixFormat = new MatrixValue(synesis.MatrixFormat.Item1); if (cCalibration.CombinedMarkers.Count() != 1) return; physicalHeight = cCalibration.CombinedMarkers[0].Height; physicalWidth = cCalibration.CombinedMarkers[0].Width; if (cCalibration.CombinedMarkers[0].Rectangles.Count() != 2) return; unitedMarker1 = new UnitedMarker(cCalibration.CombinedMarkers[0].Rectangles[0], 1); unitedMarker2 = new UnitedMarker(cCalibration.CombinedMarkers[0].Rectangles[1], 2); }
void Init(synesis.HeightMarkerCalibration hCalibration) { FocalLength = hCalibration.FocalLength; MatrixFormat = new MatrixValue(hCalibration.MatrixFormat); if (hCalibration.HeightMarkers.Count() != 1) return; physicalHeight = hCalibration.HeightMarkers[0].Height; physicalWidth = physicalHeight; if (hCalibration.HeightMarkers[0].SurfaceNormals.Count() != 2) return; unitedMarker1 = new UnitedMarker(hCalibration.HeightMarkers[0].SurfaceNormals[0], 1); unitedMarker2 = new UnitedMarker(hCalibration.HeightMarkers[0].SurfaceNormals[1], 2); }
void CheckAndCorrect(UnitedMarker unitedMarker) { double topx = unitedMarker.Top.X; double topy = unitedMarker.Top.Y; double bottomx = unitedMarker.Bottom.X; double bottomy = unitedMarker.Bottom.Y; if (topx < 0) topx = 0; if (topy < 0) topy = 0; if (topx >= bountRct.Width) topx = bountRct.Width - 1; if (topy >= bountRct.Height) topy = bountRct.Height - 1; if (bottomx < 0) bottomx = 0; if (bottomy < 0) bottomy = 0; if (bottomx >= bountRct.Width) bottomx = bountRct.Width - 1; if (bottomy >= bountRct.Height) bottomy = bountRct.Height - 1; unitedMarker.Top = new OPoint() { X = topx, Y = topy}; unitedMarker.Bottom = new OPoint() { X = bottomx, Y = bottomy }; }
public void Init(UnitedMarker unitedMarker, Size boundRect, Action bottomChanged) { this.bottomChanged = bottomChanged; this.uniMarker = unitedMarker; bountRct = boundRect; CheckAndCorrect(uniMarker); Display(); }
public void Init(UnitedMarkerCalibration uniCalibration, UnitedMarker unitedMarker, Size boundRect, Action bottomChanged, Action<int, bool> ScaleInfo) { this.bottomChanged = bottomChanged; this.ScaleInfo = ScaleInfo; uniMarker = unitedMarker; this.uniCalibration = uniCalibration; bountRct = boundRect; numtext.Text = uniMarker.ID.ToString(); CheckAndCorrect(uniMarker); Display(); }