static void help()
{
- cout << "Usage: ./cascadeclassifier_gpu \n\t--cascade <cascade_file>\n\t(<image>|--video <video>|--camera <camera_id>)\n"
+ cout << "Usage: ./cascadeclassifier \n\t--cascade <cascade_file>\n\t(<image>|--video <video>|--camera <camera_id>)\n"
"Using OpenCV version " << CV_VERSION << endl << endl;
}
static void printHelp()
{
- std::cout << "Usage: driver_api_stereo_multi_gpu --left <left_image> --right <right_image>\n";
+ std::cout << "Usage: driver_api_stereo_multi --left <left_image> --right <right_image>\n";
}
int main(int argc, char** argv)
static void printHelp()
{
cout << "Histogram of Oriented Gradients descriptor and detector sample.\n"
- << "\nUsage: hog_gpu\n"
+ << "\nUsage: hog\n"
<< " (<image>|--video <vide>|--camera <camera_id>) # frames source\n"
<< " or"
<< " (--folder <folder_path>) # load images from folder\n"
static void printHelp()
{
- cout << "Usage: stereo_match_gpu\n"
+ cout << "Usage: stereo_match\n"
<< "\t--left <left_view> --right <right_view> # must be rectified\n"
<< "\t--method <stereo_match_method> # BM | BP | CSBP\n"
<< "\t--ndisp <number> # number of disparity levels\n";
{
if (argc != 3)
{
- cerr << "Usage: stereo_multi_gpu <left_video> <right_video>" << endl;
+ cerr << "Usage: stereo_multi <left_video> <right_video>" << endl;
return -1;
}
static void help()
{
cout << "\nThis program demonstrates using SURF_CUDA features detector, descriptor extractor and BruteForceMatcher_CUDA" << endl;
- cout << "\nUsage:\n\tmatcher_simple_gpu --left <image1> --right <image2>" << endl;
+ cout << "\nUsage:\n\tsurf_keypoint_matcher --left <image1> --right <image2>" << endl;
}
int main(int argc, char* argv[])