Ejemplo n.º 1
0
void InventorLoader::checkForRedundancy( osg::NodePtr OSGGroup )
{
  return;
  
    // TODO: Check the type of the node and return, if it's not a node
    // that should be discarded (discardable: group, not discardable: geometry)

    // If the group node has no children, then let's kick it !
    if( OSGGroup->getNChildren() == 0 )
    {
        if(OSGGroup->getParent() != NullFC)
        {
            OSGGroup->getParent()->subChild(OSGGroup);
        }
        else
        {
            subRefCP(OSGGroup);
        }
    }
    // If there's only one child, then add it to the parent of the group,
    // copy the name and remove the group
    else if ( OSGGroup->getNChildren() == 1 )
    {
        // Get parent and child
        osg::NodePtr _Child = OSGGroup->getChild(0);
        osg::NodePtr _Parent = OSGGroup->getParent();

        // Copy the name
        const char* _Name = getName(OSGGroup);
        if( _Name )
            setName( _Child, _Name );

        // Add the child to the parent
        _Parent->addChild( _Child );

        // Remove the group node
        _Parent->subChild( OSGGroup );
    }
}
Ejemplo n.º 2
0
NodeBase NodeIterator::next(void)
{
    while(!_stack.empty())
    {
        OSG::NodePtr act = _stack.back();

        _stack.pop_back();

        for(OSG::UInt32 i = 0; i < act->getNChildren(); ++i)
            _stack.push_back(act->getChild(i));

        if(act->getCore()->getType().isDerivedFrom(*_type))
        {
            return NodeBase(act);
        }    
    }
   
    PyErr_SetString(PyExc_StopIteration, "Out of Nodes");   
    boost::python::throw_error_already_set();
}
Ejemplo n.º 3
0
int main(int argc, char *argv[])
{/*
    int j = 0;

    // Allocate Sotrage
    std::vector<std::vector<cv::Point3f> > object_points;
    std::vector<std::vector<cv::Point2f> > image_points;

    int numBoards = 20;
    int numCornersHor = 9;
    int numCornersVer = 6;

    int numSquares = numCornersHor * numCornersVer;
    cv::Size board_sz = cv::Size(numCornersVer, numCornersHor);

    vector<cv::Point2f> corners;
    int successes=0;


    cv::Mat init_Image;

	vector<cv::Point3f> obj;
	for(int y(0); y < numCornersHor; ++y) {
	    double tmp (y * 60.0);
	    for(int x(0); x < numCornersVer; ++x){
		obj.push_back(cv::Point3f(x * 60.0, tmp, 0));
		cout << "::" <<   x * 60.0 << " - " << tmp << endl;
	    }
	}

	//cv::VideoCapture capture = cv::VideoCapture(0);

	//while(successes < numBoards){
	for(int i = 1 ; i< 518 ; i++){
	    // every 10 pictures
	    if(j != 1){
		j++;
		continue;
	    } else {
		j=0;
	    }
	    stringstream stream;
	    stream << "pics/init/";
	    stream << i;
	    stream << ".bmp";
	    cout << "#### PICTURE NO. "<<i<<"####" << stream.str().c_str() <<endl;
	    init_Image = cvLoadImage(stream.str().c_str());
	    cv::Mat grayImage;
	    //capture >> init_Image;

	    cv::cvtColor(init_Image, grayImage, CV_BGR2GRAY);
	    bool found = cv::findChessboardCorners(grayImage, board_sz, corners, cv::CALIB_CB_ADAPTIVE_THRESH + cv::CALIB_CB_NORMALIZE_IMAGE);

	    if(found)
	    {
		cv::cornerSubPix(grayImage, corners, cv::Size(11, 11), cv::Size(-1, -1), cv::TermCriteria(CV_TERMCRIT_EPS | CV_TERMCRIT_ITER, 30, 0.1));
		cv::drawChessboardCorners(grayImage, board_sz, corners, found);

		image_points.push_back(corners);
		object_points.push_back(obj);

		cout << "Snap stored!" << endl;
		successes++;

		if(successes>=numBoards)
		    break;
	    }

	   cv::imshow("Calib1",init_Image);
	   cv::imshow("Calib2",grayImage);

	   int key = cv::waitKey(1);


	}
	cout << "image point size : " << image_points.size() << endl;
	cout << "object point size : " << object_points.size() << endl;

	cv::Mat distCoeffs;
	vector<cv::Mat> rvecs;
	vector<cv::Mat> tvecs;

	cv::Mat intrinsic;

	cv::calibrateCamera(object_points, image_points, init_Image.size(), intrinsic, distCoeffs, rvecs, tvecs);

	cout << "##INTRINSIC##" <<endl;
	cout << intrinsic.ptr<double>(0)[0] << " " <<intrinsic.ptr<double>(0)[1]<<" " <<intrinsic.ptr<double>(0)[2]<< endl;
	cout << intrinsic.ptr<double>(1)[0] << " " <<intrinsic.ptr<double>(1)[1]<< " " <<intrinsic.ptr<double>(1)[2] << endl;
	cout << intrinsic.ptr<double>(2)[0] << " " <<intrinsic.ptr<double>(2)[1]<< " " <<intrinsic.ptr<double>(2)[2] << endl;

	cout << "##DISTORTION##" <<endl;
	cout << distCoeffs.ptr<double>(0)[0] << " " << distCoeffs.ptr<double>(0)[1] << " " << distCoeffs.ptr<double>(0)[2] << " "
		<< distCoeffs.ptr<double>(0)[3] << " " << distCoeffs.ptr<double>(0)[4] << " " << distCoeffs.ptr<double>(0)[5] << " "  <<endl;


	for(int i = 1 ; i< 300 ; i++){

	    stringstream stream,s2;
	    stream << "pics/";
	    stream << i;
	    stream << ".bmp";
	    cout << "#### PICTURE NO. "<<i<<"####" << stream.str().c_str() <<endl;
	    cv:: Mat image = cvLoadImage(stream.str().c_str());
	cv::Mat newI;
		cv::undistort(image,newI,intrinsic,distCoeffs);
		s2 << "pics/undist/";
		s2 << i;
		s2 << ".bmp";
		cv::imwrite(s2.str().c_str(),newI);
	}
	exit(0);*/
    // AR _BEGIN_
/*


    const char    *cparam_name    = "pics/camera_para.dat";
    ARParam cparam;
    ARParam wparam;

    // opencv-test
    char	*patt_name      = "davit.patt";

    std::cout << QDir::currentPath().toStdString() << endl;
    cv::Mat m,n;
    cv::namedWindow("looky looky");

    ARUint8  *dataPtr;
    int patt_id;
    if( (patt_id=arLoadPatt(patt_name)) < 0 ) {
	cout << "Pattern load error" <<endl;
    } else {
	cout << "Pattern loaded... "<<endl;
    }

    // set the initial camera parameters
    if( arParamLoad(cparam_name, 1, &wparam) < 0 ) {
	cout << "Camera parameter load error !!"<<endl;
	exit(0);
    } else {
	cout << "Loaded Camera Parameter !! "<<endl;
    }

    //wparam.xsize = 1280;
    //wparam.ysize = 1024;
    //wparam.mat[0][0] = 1598.0;
    //wparam.mat[1][1] = 1596.15;
    //wparam.mat[0][2] = 555.006;
    //wparam.mat[1][2] = 525.028;

    //wparam.dist_factor[0] = -0.477959;
    //wparam.dist_factor[1] = 1.83017;
    //wparam.dist_factor[2] = -0.0036001;
    //wparam.dist_factor[3] = -0.0001997;
    //cout <<"RESET..."<<endl;

    arParamChangeSize( &wparam, 1280, 1024, &cparam );
    arInitCparam( &cparam );
    cout << "*** Camera Parameter ***"<<endl;
    arParamDisp( &cparam );

    //open file
    fstream file;
    file.open("1280x1024Data.dat",ios::out);

    cv::Mat RGB;
    int v = 0;
    for(int u=1;u<=200;++u){
	file<<"#FRAME_"<<u<<endl;
	//cout << "in loop..."<<endl;
	stringstream stream;
	stream << "pics/undist/";
	stream << u;
	stream << ".bmp";

	RGB = cv::imread(stream.str().c_str());
	cv::flip(RGB,RGB,0);

	cv::Mat matAR(RGB.rows,RGB.cols,CV_8UC4);
	cv::cvtColor(RGB,matAR,CV_BGR2BGRA);

	cv::Mat newAR(RGB.rows,RGB.cols,CV_8UC4);

	cv::Mat in[] = {matAR};
	cv::Mat out[] = {newAR};
	int from[] = {3,0,0,3,1,2,2,1};
	cv::mixChannels(in,1,out,1,from,4);

	dataPtr = (ARUint8*)newAR.data;

	ARMarkerInfo    *marker_info;
	int             marker_num;

	if( dataPtr == NULL ) {
		arUtilSleep(2);
		cout << "No Image data found...";
		return 2;
	}

	cout << "try detecting... " << u <<endl;
	if( arDetectMarker(dataPtr, 45, &marker_info, &marker_num) < 0 ) {
	    cout << "No Markers found... :(";
		//cleanup();
		//exit(0);
		return 4;
	}

	int j,k;
	k = -1;
	    for( j = 0; j < marker_num; j++ ) {
		if( patt_id == marker_info[j].id ) {
		    if( k == -1 ) k = j;
		    else if( marker_info[k].cf < marker_info[j].cf ) k = j;
		}
	    }
	    //cout << "k: " << k << endl;
	    double patt_width = 225.0;
	    double patt_center[2] = {0.0,0.0};
	    double patt_trans[3][4];

	    double quat[4];
	    double pos[3];

	    if(marker_num > 0 && k == 0){
		//cout << "Marker found : " << marker_num << "  " << v++ << " - k: " << k <<endl;
		arGetTransMat(&marker_info[k],patt_center,patt_width,patt_trans);
		if(arUtilMat2QuatPos(patt_trans,quat,pos) == 0){
			cout << "quat worked" <<endl;
			cout << "quat: " << quat[0] << " " << quat[1] << " " << quat[2] << " " << quat[3] << endl;
			cout << "pos: " << pos[0] << " " << pos[1] << " " << pos[2] << endl;
			cout <<endl;
		}

		file << patt_trans[0][0] << " " << patt_trans[0][1] << " " << patt_trans[0][2] << " " << patt_trans[0][3] << " "<<endl;
		file << patt_trans[1][0] << " " << patt_trans[1][1] << " " << patt_trans[1][2] << " " << patt_trans[1][3] << " "<<endl;
		file << patt_trans[2][0] << " " << patt_trans[2][1] << " " << patt_trans[2][2] << " " << patt_trans[2][3] << " "<<endl;

		//file << patt_center[0] << " " << patt_center[1] <<endl;
		//cout << "patt width: " << patt_width <<endl;


		file << marker_info[k].pos[0] << " " << marker_info[k].pos[1] <<endl;

		cout << "p1: " << marker_info[k].vertex[0][0] << " " << marker_info[k].vertex[0][1]<< endl;
		cout << "p2: " << marker_info[k].vertex[1][0] << " " << marker_info[k].vertex[1][1]<< endl;
		cout << "p3: " << marker_info[k].vertex[2][0] << " " << marker_info[k].vertex[2][1]<< endl;
		cout << "p4: " << marker_info[k].vertex[3][0] << " " << marker_info[k].vertex[3][1]<< endl;

		cv::line(newAR,cv::Point(marker_info[k].vertex[0][0],marker_info[k].vertex[0][1]),cv::Point(marker_info[k].vertex[1][0],marker_info[k].vertex[1][1]),CV_RGB(255,0,0));
		cv::line(newAR,cv::Point(marker_info[k].vertex[1][0],marker_info[k].vertex[1][1]),cv::Point(marker_info[k].vertex[2][0],marker_info[k].vertex[2][1]),CV_RGB(255,0,0));
		cv::line(newAR,cv::Point(marker_info[k].vertex[2][0],marker_info[k].vertex[2][1]),cv::Point(marker_info[k].vertex[3][0],marker_info[k].vertex[3][1]),CV_RGB(255,0,0));
		cv::line(newAR,cv::Point(marker_info[k].vertex[3][0],marker_info[k].vertex[3][1]),cv::Point(marker_info[k].vertex[0][0],marker_info[k].vertex[0][1]),CV_RGB(255,0,0));

		cv::line(newAR,cv::Point(marker_info[k].vertex[0][0],marker_info[k].vertex[0][1]),cv::Point(marker_info[k].vertex[2][0],marker_info[k].vertex[2][1]),CV_RGB(255,0,0));
		cv::line(newAR,cv::Point(marker_info[k].vertex[1][0],marker_info[k].vertex[1][1]),cv::Point(marker_info[k].vertex[3][0],marker_info[k].vertex[3][1]),CV_RGB(255,0,0));

		cv::line(RGB,cv::Point(marker_info[k].vertex[0][0],marker_info[k].vertex[0][1]),cv::Point(marker_info[k].vertex[1][0],marker_info[k].vertex[1][1]),CV_RGB(255,0,0));
		cv::line(RGB,cv::Point(marker_info[k].vertex[1][0],marker_info[k].vertex[1][1]),cv::Point(marker_info[k].vertex[2][0],marker_info[k].vertex[2][1]),CV_RGB(255,0,0));
		cv::line(RGB,cv::Point(marker_info[k].vertex[2][0],marker_info[k].vertex[2][1]),cv::Point(marker_info[k].vertex[3][0],marker_info[k].vertex[3][1]),CV_RGB(255,0,0));
		cv::line(RGB,cv::Point(marker_info[k].vertex[3][0],marker_info[k].vertex[3][1]),cv::Point(marker_info[k].vertex[0][0],marker_info[k].vertex[0][1]),CV_RGB(255,0,0));

		cv::line(RGB,cv::Point(marker_info[k].vertex[0][0],marker_info[k].vertex[0][1]),cv::Point(marker_info[k].vertex[2][0],marker_info[k].vertex[2][1]),CV_RGB(255,0,0));
		cv::line(RGB,cv::Point(marker_info[k].vertex[1][0],marker_info[k].vertex[1][1]),cv::Point(marker_info[k].vertex[3][0],marker_info[k].vertex[3][1]),CV_RGB(255,0,0));

		cv::waitKey(1);
	    }
	stringstream stream2;
	stream2 << "pics/new/";
	stream2 << u;
	stream2 << ".bmp";
	//cv::imwrite(stream2.str().c_str(),RGB);

	file<< "##"<<endl;
	cv::imshow("looky looky",RGB);
	cv::waitKey(1);
    }
    file.close();

*/
    // AR _ENDE_ !!
    //}


  //  QCoreApplication a(argc, argv);

	OSG::osgInit(argc,argv);
	cout << "argc " << argc <<endl;
	for(int ar(0);ar<argc;++ar)
		cout << argv[ar] << " ";
	cout << endl;
	int winid = setupGLUT(&argc,argv);
	//GLUTWindowPtr gwin = GLUTWindow::create();
	//gwin->setGlutId(winid);
	//gwin->init();


	OSG::NodePtr scene = SceneFileHandler::the().read("data/test__1.obj");
	//OSG::NodePtr scene = SceneFileHandler::the().read("data/test3_4.obj");
	//GroupPtr scene = GroupPtr::dcast(scene);


	cout << "type: " << scene.getCore()->getTypeName()<< endl;

	cout << "children in scene: " << scene->getNChildren()<<endl;

		GeometryPtr geo = GeometryPtr::dcast(scene->getCore());

		GeoPTypesPtr type = GeoPTypesUI8::create();
		type->addValue(GL_LINE);

		LineIterator lit;
		int lines(0);
		TEST = geo;
		for(lit = geo->beginLines();lit != geo->endLines();++lit){
			lines++;
		}

		cout << "lines: " << lines <<endl;
		SimpleMaterialPtr mat = SimpleMaterial::create();
		geo->setMaterial(mat);

	// Create and setup our little friend - the SSM
	mgr = new SimpleSceneManager;
	//mgr->setWindow(gwin);
	//mgr->setRoot(scene);
	//mgr->showAll();
	//glutCreateWindow("test");

    glutMainLoop();

    return 0;
}