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#include <iostream>
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#include <iomanip>
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#include <string>
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#include "opencv2/core.hpp"
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#include "opencv2/core/utility.hpp"
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#include "opencv2/highgui.hpp"
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#include "opencv2/imgproc.hpp"
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#include "opencv2/contrib.hpp"
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#include "opencv2/superres.hpp"
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#include "opencv2/superres/optical_flow.hpp"
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using namespace std;
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using namespace cv;
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using namespace cv::superres;
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#define MEASURE_TIME(op) \
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{ \
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TickMeter tm; \
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tm.start(); \
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op; \
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tm.stop(); \
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cout << tm.getTimeSec() << " sec" << endl; \
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}
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static Ptr<DenseOpticalFlowExt> createOptFlow(const string& name, bool useGpu)
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{
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if (name == "farneback")
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{
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if (useGpu)
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return createOptFlow_Farneback_GPU();
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else
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return createOptFlow_Farneback();
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}
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else if (name == "simple")
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return createOptFlow_Simple();
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else if (name == "tvl1")
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{
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if (useGpu)
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return createOptFlow_DualTVL1_GPU();
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else
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return createOptFlow_DualTVL1();
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}
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else if (name == "brox")
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return createOptFlow_Brox_GPU();
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else if (name == "pyrlk")
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return createOptFlow_PyrLK_GPU();
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else
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{
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cerr << "Incorrect Optical Flow algorithm - " << name << endl;
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}
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return 0;
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}
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int main(int argc, const char* argv[])
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{
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CommandLineParser cmd(argc, argv,
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"{ v video | | Input video }"
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"{ o output | | Output video }"
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"{ s scale | 4 | Scale factor }"
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"{ i iterations | 180 | Iteration count }"
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"{ t temporal | 4 | Radius of the temporal search area }"
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"{ f flow | farneback | Optical flow algorithm (farneback, simple, tvl1, brox, pyrlk) }"
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"{ gpu | false | Use GPU }"
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"{ h help | false | Print help message }"
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);
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if (cmd.get<bool>("help"))
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{
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cout << "This sample demonstrates Super Resolution algorithms for video sequence" << endl;
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cmd.printMessage();
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return 0;
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}
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const string inputVideoName = cmd.get<string>("video");
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const string outputVideoName = cmd.get<string>("output");
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const int scale = cmd.get<int>("scale");
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const int iterations = cmd.get<int>("iterations");
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const int temporalAreaRadius = cmd.get<int>("temporal");
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const string optFlow = cmd.get<string>("flow");
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const bool useGpu = cmd.get<bool>("gpu");
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Ptr<SuperResolution> superRes;
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if (useGpu)
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superRes = createSuperResolution_BTVL1_GPU();
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else
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superRes = createSuperResolution_BTVL1();
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superRes->set("scale", scale);
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superRes->set("iterations", iterations);
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superRes->set("temporalAreaRadius", temporalAreaRadius);
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Ptr<DenseOpticalFlowExt> of = createOptFlow(optFlow, useGpu);
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if (of.empty())
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exit(-1);
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superRes->set("opticalFlow", of);
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Ptr<FrameSource> frameSource;
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if (useGpu)
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{
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// Try to use gpu Video Decoding
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try
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{
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frameSource = createFrameSource_Video_GPU(inputVideoName);
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Mat frame;
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frameSource->nextFrame(frame);
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}
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catch (const cv::Exception&)
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{
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frameSource.release();
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}
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}
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if (frameSource.empty())
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frameSource = createFrameSource_Video(inputVideoName);
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// skip first frame, it is usually corrupted
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{
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Mat frame;
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frameSource->nextFrame(frame);
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cout << "Input : " << inputVideoName << " " << frame.size() << endl;
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cout << "Scale factor : " << scale << endl;
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cout << "Iterations : " << iterations << endl;
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cout << "Temporal radius : " << temporalAreaRadius << endl;
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cout << "Optical Flow : " << optFlow << endl;
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cout << "Mode : " << (useGpu ? "GPU" : "CPU") << endl;
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}
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superRes->setInput(frameSource);
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VideoWriter writer;
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for (int i = 0;; ++i)
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{
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cout << '[' << setw(3) << i << "] : ";
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Mat result;
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MEASURE_TIME(superRes->nextFrame(result));
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if (result.empty())
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break;
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imshow("Super Resolution", result);
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if (waitKey(1000) > 0)
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break;
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if (!outputVideoName.empty())
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{
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if (!writer.isOpened())
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writer.open(outputVideoName, VideoWriter::fourcc('X', 'V', 'I', 'D'), 25.0, result.size());
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writer << result;
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}
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}
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return 0;
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}
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