/*! * */ int main(int argc,char **argv) { readArguments(argc,argv); aruco::BoardConfiguration boardConf; boardConf.readFromFile(boC->sval[0]); cv::VideoCapture vcapture; //read from camera or from file if (strcmp(inp->sval[0], "live")==0) { vcapture.open(0); vcapture.set(CV_CAP_PROP_FRAME_WIDTH, wid->ival[0]); vcapture.set(CV_CAP_PROP_FRAME_HEIGHT, hei->ival[0]); int val = CV_FOURCC('M', 'P', 'E', 'G'); vcapture.set(CV_CAP_PROP_FOURCC, val); } else vcapture.open(inp->sval[0]); //check video is open if (!vcapture.isOpened()) { std::cerr<<"Could not open video"<<std::endl; return -1; } //read first image to get the dimensions vcapture>>inpImg; //Open outputvideo cv::VideoWriter vWriter; if (out->count) vWriter.open(out->sval[0], CV_FOURCC('M','J','P','G'), fps->ival[0], inpImg.size()); //read camera parameters if passed if (intr->count) { params.readFromXMLFile(intr->sval[0]); params.resize(inpImg.size()); } //Create gui cv::namedWindow("thres", CV_GUI_NORMAL | CV_WINDOW_AUTOSIZE); cv::namedWindow("in", CV_GUI_NORMAL | CV_WINDOW_AUTOSIZE); cvMoveWindow("thres", 0, 0); cvMoveWindow("in", inpImg.cols + 5, 0); boardDetector.setParams(boardConf,params,msiz->dval[0]); boardDetector.getMarkerDetector().getThresholdParams( dThresParam1,dThresParam2); // boardDetector.getMarkerDetector().enableErosion(true);//for chessboards iThresParam1=dThresParam1; iThresParam2=dThresParam2; cv::createTrackbar("ThresParam1", "in",&iThresParam1, 13, cvTrackBarEvents); cv::createTrackbar("ThresParam2", "in",&iThresParam2, 13, cvTrackBarEvents); int index=0; /////////////// // Main Lopp // /////////////// while(appRunnin) { inpImg.copyTo(inpImgCpy); index++; //number of images captured double tick = static_cast<double>(cv::getTickCount());//for checking the speed float probDetect=boardDetector.detect(inpImg); //Detection of the board tick=(static_cast<double>(cv::getTickCount())-tick)/cv::getTickFrequency(); std::cout<<"Time detection="<<1000*tick<<" milliseconds"<<std::endl; //print marker borders for (unsigned int i=0; i<boardDetector.getDetectedMarkers().size(); i++) boardDetector.getDetectedMarkers()[i].draw(inpImgCpy,cv::Scalar(0,0,255),1); //print board if (params.isValid()) { if ( probDetect>thre->dval[0]) { aruco::CvDrawingUtils::draw3dAxis( inpImgCpy,boardDetector.getDetectedBoard(),params); } } //DONE! Easy, right? //show input with augmented information and the thresholded image cv::imshow("in",inpImgCpy); cv::imshow("thres",boardDetector.getMarkerDetector().getThresholdedImage()); // write to video if desired if (out->count) { //create a beautiful composed image showing the thresholded //first create a small version of the thresholded image cv::Mat smallThres; cv::resize(boardDetector.getMarkerDetector().getThresholdedImage(),smallThres, cv::Size(inpImgCpy.cols/3,inpImgCpy.rows/3)); cv::Mat small3C; cv::cvtColor(smallThres,small3C,CV_GRAY2BGR); cv::Mat roi=inpImgCpy(cv::Rect(0,0,inpImgCpy.cols/3,inpImgCpy.rows/3)); small3C.copyTo(roi); vWriter<<inpImgCpy; } processKey(cv::waitKey(waitTime));//wait for key to be pressed appRunnin &= vcapture.grab(); vcapture.retrieve(inpImg); } arg_freetable(argtable,sizeof(argtable)/sizeof(argtable[0])); return EXIT_SUCCESS; }
int main(int argc, char** argv) { /// READ PARAMETERS if(!readParameters(argc, argv)) return false; /// CREATE UNDISTORTED CAMERA PARAMS CameraParamsUnd=CameraParams; CameraParamsUnd.Distorsion=cv::Mat::zeros(4,1,CV_32F); cout<<" REATE UNDISTORTED CAMERA PARAMS "<<endl; /// SET BOARD DETECTOR PARAMETERS TheBoardDetector.setParams(TheBoardConfig,CameraParamsUnd,TheMarkerSize); /// CAPTURE FIRST FRAME TheVideoCapturer.grab(); TheVideoCapturer.retrieve ( TheInputImage ); cv::undistort(TheInputImage,TheInputImageUnd,CameraParams.CameraMatrix,CameraParams.Distorsion); cout<<" CAPTURE FIRST FRAME "<<endl; /// INIT OGRE initOgreAR(CameraParamsUnd, TheInputImageUnd.ptr<uchar>(0)); cout<<" OGRE initiated "<<endl; while (TheVideoCapturer.grab()) { /// READ AND UNDISTORT IMAGE TheVideoCapturer.retrieve ( TheInputImage ); cv::undistort(TheInputImage,TheInputImageUnd,CameraParams.CameraMatrix,CameraParams.Distorsion); /// DETECT BOARD float probDetect = TheBoardDetector.detect(TheInputImageUnd); cout<<" detection: "<<probDetect<<endl; /// UPDATE BACKGROUND IMAGE mTexture->getBuffer()->blitFromMemory(mPixelBox); /// UPDATE SCENE if ( probDetect>0.2) ogreNode->setVisible(true); else ogreNode->setVisible(false); // set node pose double position[3], orientation[4]; TheBoardDetector.getDetectedBoard().OgreGetPoseParameters(position, orientation); ogreNode->setPosition( position[0], position[1], position[2] ); ogreNode->setOrientation( orientation[0], orientation[1], orientation[2], orientation[3] ); // Update animation double deltaTime = 1.2*root->getTimer()->getMilliseconds()/1000.; baseAnim->addTime(deltaTime); topAnim->addTime(deltaTime); root->getTimer()->reset(); /// RENDER FRAME if(root->renderOneFrame() == false) break; Ogre::WindowEventUtilities::messagePump(); /// KEYBOARD INPUT keyboard->capture(); if (keyboard->isKeyDown(OIS::KC_ESCAPE)) break; } im->destroyInputObject(keyboard); im->destroyInputSystem(im); im = 0; delete root; return 0; }