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#include "opencv2/imgproc.hpp"
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#include "opencv2/highgui.hpp"
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#include <iostream>
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using namespace cv;
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static void help( void )
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{
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printf("\nThis program illustrates Linear-Polar and Log-Polar image transforms\n"
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"Usage :\n"
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"./polar_transforms [[camera number -- Default 0],[path_to_filename]]\n\n");
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}
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int main( int argc, char** argv )
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{
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VideoCapture capture;
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Mat log_polar_img, lin_polar_img, recovered_log_polar, recovered_lin_polar_img;
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help();
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CommandLineParser parser(argc, argv, "{@input|0|}");
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std::string arg = parser.get<std::string>("@input");
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if( arg.size() == 1 && isdigit(arg[0]) )
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capture.open( arg[0] - '0' );
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else
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capture.open( arg.c_str() );
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if( !capture.isOpened() )
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{
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const char* name = argv[0];
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fprintf(stderr,"Could not initialize capturing...\n");
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fprintf(stderr,"Usage: %s <CAMERA_NUMBER> , or \n %s <VIDEO_FILE>\n", name, name);
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return -1;
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}
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namedWindow( "Linear-Polar", WINDOW_AUTOSIZE );
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namedWindow( "Log-Polar", WINDOW_AUTOSIZE);
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namedWindow( "Recovered Linear-Polar", WINDOW_AUTOSIZE);
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namedWindow( "Recovered Log-Polar", WINDOW_AUTOSIZE);
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moveWindow( "Linear-Polar", 20,20 );
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moveWindow( "Log-Polar", 700,20 );
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moveWindow( "Recovered Linear-Polar", 20, 350 );
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moveWindow( "Recovered Log-Polar", 700, 350 );
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int flags = INTER_LINEAR + WARP_FILL_OUTLIERS;
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Mat src;
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for(;;)
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{
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capture >> src;
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if(src.empty() )
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break;
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Point2f center( (float)src.cols / 2, (float)src.rows / 2 );
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double maxRadius = 0.7*min(center.y, center.x);
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#if 0 //deprecated
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double M = frame.cols / log(maxRadius);
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logPolar(frame, log_polar_img, center, M, flags);
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linearPolar(frame, lin_polar_img, center, maxRadius, flags);
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logPolar(log_polar_img, recovered_log_polar, center, M, flags + WARP_INVERSE_MAP);
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linearPolar(lin_polar_img, recovered_lin_polar_img, center, maxRadius, flags + WARP_INVERSE_MAP);
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#endif
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//! [InverseMap]
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// direct transform
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warpPolar(src, lin_polar_img, Size(),center, maxRadius, flags); // linear Polar
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warpPolar(src, log_polar_img, Size(),center, maxRadius, flags + WARP_POLAR_LOG); // semilog Polar
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// inverse transform
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warpPolar(lin_polar_img, recovered_lin_polar_img, src.size(), center, maxRadius, flags + WARP_INVERSE_MAP);
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warpPolar(log_polar_img, recovered_log_polar, src.size(), center, maxRadius, flags + WARP_POLAR_LOG + WARP_INVERSE_MAP);
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//! [InverseMap]
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// Below is the reverse transformation for (rho, phi)->(x, y) :
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Mat dst;
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if (flags & WARP_POLAR_LOG)
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dst = log_polar_img;
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else
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dst = lin_polar_img;
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//get a point from the polar image
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int rho = cvRound(dst.cols * 0.75);
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int phi = cvRound(dst.rows / 2.0);
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//! [InverseCoordinate]
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double angleRad, magnitude;
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double Kangle = dst.rows / CV_2PI;
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angleRad = phi / Kangle;
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if (flags & WARP_POLAR_LOG)
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{
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double Klog = dst.cols / std::log(maxRadius);
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magnitude = std::exp(rho / Klog);
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}
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else
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{
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double Klin = dst.cols / maxRadius;
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magnitude = rho / Klin;
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}
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int x = cvRound(center.x + magnitude * cos(angleRad));
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int y = cvRound(center.y + magnitude * sin(angleRad));
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//! [InverseCoordinate]
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drawMarker(src, Point(x, y), Scalar(0, 255, 0));
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drawMarker(dst, Point(rho, phi), Scalar(0, 255, 0));
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#if 0 //C version
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CvMat src = frame;
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CvMat dst = lin_polar_img;
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CvMat inverse = recovered_lin_polar_img;
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cvLinearPolar(&src, &dst, center, maxRadius, flags);
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cvLinearPolar(&dst, &inverse, center, maxRadius,flags + WARP_INVERSE_MAP);
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#endif
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imshow("Src frame", src);
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imshow("Log-Polar", log_polar_img);
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imshow("Linear-Polar", lin_polar_img);
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imshow("Recovered Linear-Polar", recovered_lin_polar_img );
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imshow("Recovered Log-Polar", recovered_log_polar );
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if( waitKey(10) >= 0 )
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break;
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}
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return 0;
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}
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