void DoProcess() { if (!(owner.Value is OpenCVForUnityPlayMakerActions.GridBoard)) { LogError("owner is not initialized. Add Action \"newGridBoard\"."); return; } OpenCVForUnity.ArucoModule.GridBoard wrapped_owner = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.GridBoard, OpenCVForUnity.ArucoModule.GridBoard>(owner); if (!(outSize.Value is OpenCVForUnityPlayMakerActions.Size)) { LogError("outSize is not initialized. Add Action \"newSize\"."); return; } OpenCVForUnity.CoreModule.Size wrapped_outSize = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.Size, OpenCVForUnity.CoreModule.Size>(outSize); if (!(img.Value is OpenCVForUnityPlayMakerActions.Mat)) { LogError("img is not initialized. Add Action \"newMat\"."); return; } OpenCVForUnity.CoreModule.Mat wrapped_img = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.Mat, OpenCVForUnity.CoreModule.Mat>(img); wrapped_owner.draw(wrapped_outSize, wrapped_img); }
/** * Create a GridBoard object * * param markersX number of markers in X direction * param markersY number of markers in Y direction * param markerLength marker side length (normally in meters) * param markerSeparation separation between two markers (same unit as markerLength) * param dictionary dictionary of markers indicating the type of markers * return the output GridBoard object * * This functions creates a GridBoard object given the number of markers in each direction and * the marker size and marker separation. */ public static GridBoard create(int markersX, int markersY, float markerLength, float markerSeparation, Dictionary dictionary) { if (dictionary != null) { dictionary.ThrowIfDisposed(); } return(GridBoard.__fromPtr__(aruco_GridBoard_create_11(markersX, markersY, markerLength, markerSeparation, dictionary.getNativeObjAddr()))); }
void DoProcess() { if (!(owner.Value is OpenCVForUnityPlayMakerActions.GridBoard)) { LogError("owner is not initialized. Add Action \"newGridBoard\"."); return; } OpenCVForUnity.ArucoModule.GridBoard wrapped_owner = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.GridBoard, OpenCVForUnity.ArucoModule.GridBoard>(owner); storeResult.Value = wrapped_owner.getMarkerSeparation(); }
//javadoc: GridBoard::create(markersX, markersY, markerLength, markerSeparation, dictionary) public static GridBoard create(int markersX, int markersY, float markerLength, float markerSeparation, Dictionary dictionary) { if (dictionary != null) { dictionary.ThrowIfDisposed(); } #if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER GridBoard retVal = GridBoard.__fromPtr__(aruco_GridBoard_create_11(markersX, markersY, markerLength, markerSeparation, dictionary.getNativeObjAddr())); return(retVal); #else return(null); #endif }
void DoProcess() { if (!(owner.Value is OpenCVForUnityPlayMakerActions.GridBoard)) { LogError("owner is not initialized. Add Action \"newGridBoard\"."); return; } OpenCVForUnity.ArucoModule.GridBoard wrapped_owner = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.GridBoard, OpenCVForUnity.ArucoModule.GridBoard>(owner); if (!(img.Value is OpenCVForUnityPlayMakerActions.Mat)) { LogError("img is not initialized. Add Action \"newMat\"."); return; } OpenCVForUnity.CoreModule.Mat wrapped_img = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.Mat, OpenCVForUnity.CoreModule.Mat>(img); wrapped_owner.draw(new OpenCVForUnity.CoreModule.Size((double)outSize_width.Value, (double)outSize_height.Value), wrapped_img, marginSize.Value, borderBits.Value); }
public GridBoard(OpenCVForUnity.ArucoModule.GridBoard nativeObj) : base(nativeObj) { }