Hu Chunming / FFNvDecoder_WIN

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FFNvDecoder/main.cpp 6.57 KB
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a359bb4f   Hu Chunming   调通可正常运行 -- 初版 
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  #include "FFNvDecoderManager.h"
  #include <iostream>
  
  #include <thread>
  
  #include <chrono>
  
  #include "check_tool.h"
  
  #include "cudaHeader.h"
  
  #include "cuda_kernels.h"
  #include "NvJpegEncoder.h"
  
  using namespace std;
  
  unsigned char *pHwRgb[2] = {nullptr, nullptr};
  
  int sum1 = 0;
  int sum2 = 0;
  
  
  mutex m_mutex;

  void saveFrame(AVFrame * gpuFrame, string file_name) {

  	std::lock_guard<std::mutex> l(m_mutex);

  

  

  	unsigned char *pHwData = nullptr;

  	cudaError_t cudaStatus = cudaMalloc((void **)&pHwData, 3 * gpuFrame->width * gpuFrame->height * sizeof(unsigned char));

  

  	cuda_common::setColorSpace(ITU709, 0);

  	cudaStatus = cuda_common::CUDAToBGR((CUdeviceptr)gpuFrame->data[0], (CUdeviceptr)gpuFrame->data[1], gpuFrame->linesize[0], gpuFrame->linesize[1], pHwData, gpuFrame->width, gpuFrame->height);

  	cudaDeviceSynchronize();

  	if (cudaStatus != cudaSuccess) {

  		cout << "CUDAToBGR failed !!!" << endl;

  		return;

  	}

  

  	string path = file_name + ".jpg";

  	saveJpeg(path.c_str(), pHwData, gpuFrame->width, gpuFrame->height, nullptr);  // 验证 CUDAToRGB 

  

  	cudaDeviceSynchronize();

  	cudaFree(pHwData);

  	pHwData = nullptr;

  }
  
  /**
   * 注意: gpuFrame 在解码器设置的显卡上,后续操作要十分注意这一点,尤其是多线程情况
   * */
  void postDecoded(const void * userPtr, AVFrame * gpuFrame){
      FFNvDecoder* decoder = (FFNvDecoder*)userPtr;
      if (decoder!= nullptr)
      {
          // cout << "decode name: " << decoder->getName() << endl;
  
          // const char* gpu_pixfmt = av_get_pix_fmt_name((AVPixelFormat)gpuFrame->format);
          // cout << "pixfmt: " << gpu_pixfmt << endl;
          // cout << "keyframe: " << gpuFrame->key_frame << " width: " << gpuFrame->width << " height: "<< gpuFrame->height << endl;
          // cout << "decode successed ✿✿ヽ(°▽°)ノ✿ " << endl;
  
  		if (gpuFrame->format == AV_PIX_FMT_CUDA)

  		{

  			// cout << "gpuid = " << atoi(decoder->m_cfg.gpuid.c_str()) << endl;

  			cudaSetDevice(atoi(decoder->m_cfg.gpuid.c_str()));

  

  			saveFrame(gpuFrame, decoder->getName());

  		}
      }
  }
  
  long long start_time = 0;
  long long end_time = 0;
  bool count_flag = false;
  int count_num = 0;
  int count_std = 100;
  
  static long long get_cur_time(){
      // 获取操作系统当前时间点(精确到微秒)
      chrono::time_point<chrono::system_clock, chrono::milliseconds> tpMicro
          = chrono::time_point_cast<chrono::milliseconds>(chrono::system_clock::now());
      // (微秒精度的)时间点 => (微秒精度的)时间戳
      return tpMicro.time_since_epoch().count();
  }
  
  static int sum = 0;
  unsigned char *pHwData = nullptr;
  
  void postDecoded0(const void * userPtr, AVFrame * gpuFrame){
      // std::this_thread::sleep_for(std::chrono::milliseconds(30000));
  
      FFNvDecoder* decoder = (FFNvDecoder*)userPtr;
      if (decoder!= nullptr)
      {
          // cout << "decode name: " << decoder->getName() << endl;
          if (decoder->getName() == "dec")
          {
              if (! count_flag)
              {
                  count_flag = true;
                  count_num = 0;
                  end_time = start_time = get_cur_time();
              }
              count_num++;
              sum ++ ;
              if (count_num >= count_std)
              {
                  // end_time = get_cur_time();
                  // long time_using = end_time - start_time;
                  // double time_per_frame = double(time_using)/count_std ;
                  // cout << count_std << "帧用时:" << time_using << "ms 每帧用时:" << time_per_frame << "ms" << endl;
                  cout << "keyframe: " << gpuFrame->key_frame << " width: " << gpuFrame->width << " height: "<< gpuFrame->height << endl;
  
                  count_flag = false;
              }
              cout << "帧数:" << sum << endl;
          }
      }
  }
  
  void decode_finished_cbk(const void* userPtr){
      cout << "decode_finish timestamp: " << get_cur_time() << endl;
  }
  
  // string test_uri = "rtmp://192.168.10.56:1935/objecteye/1";
  // string test_uri = "/home/cmhu/data/output_800x480.mp4";
  // string test_uri = "/home/cmhu/data/output_1920x1080.mp4";
  // string test_uri = "rtsp://176.10.0.2:8554/stream";
  // string test_uri = "/mnt/f/fiss/test_data/h265.mp4";
  string test_uri = "rtsp://176.10.0.4:8554/stream";
  
  void createDecode(int index){
      FFNvDecoderManager* pDecManager = FFNvDecoderManager::getInstance();
      MgrDecConfig config;
      config.name = "dec" + to_string(index);
      config.cfg.uri = test_uri;
      config.cfg.post_decoded_cbk = postDecoded;
      config.cfg.decode_finished_cbk = decode_finished_cbk;
      config.cfg.force_tcp = true;
  
      if (index % 2 == 0)
      {
          config.cfg.gpuid = "0";
      }
      else
      {
          config.cfg.gpuid = "0";
      }
      
      FFNvDecoder* decoder = pDecManager->createDecoder(config);
      if (!decoder)
      {
          return ;
      }
      pDecManager->setUserPtr(config.name, decoder);
      pDecManager->startDecodeByName(config.name);
  }
  
  void logFF(void *, int level, const char *fmt, va_list ap)
  {
      vfprintf(stdout, fmt, ap);
  }
  
  
  int main(int argc, char* argv[]) {
  
  	cudaTest();
  
      printf("start \n");
      if (argc != 3) {
          fprintf(stderr, "./xxx uri gpu_id\n");
          return -1;
      }
  
      char* uri = argv[1];
      char* gpuid = argv[2];
  
      cout << av_version_info() << endl;
  
      //evalQuality(uri, gpuid);
  
  
      // av_log_set_callback(&logFF);
  
      FFNvDecoderManager* pDecManager = FFNvDecoderManager::getInstance();
  
      // int count = 99;
      // for (size_t i = 0; i < count ; i++)
      // {
      //     createDecode(i);
      // }
  
      MgrDecConfig config;
      config.name = "dec";
      config.cfg.uri = uri;
      config.cfg.post_decoded_cbk = postDecoded;
      config.cfg.decode_finished_cbk = decode_finished_cbk;
      config.cfg.force_tcp = true;
      config.cfg.gpuid = "0";
      FFNvDecoder* dec2 = pDecManager->createDecoder(config);
      if (!dec2)
      {
          return 1;
      }
      pDecManager->setUserPtr(config.name, dec2);
      // pDecManager->setDecKeyframe(config.name, true);
      pDecManager->startDecodeByName(config.name);
  
      int w,h;
      pDecManager->getResolution(config.name, w,h);
      printf( "%s : %dx%d\n", config.name.c_str() , w,h );
  
      thread* m_thread = new thread([](void* arg)
          {
              while (true)
              {
                  std::this_thread::sleep_for(std::chrono::milliseconds(5000));
                  FFNvDecoderManager* pDecManager = FFNvDecoderManager::getInstance();
                  int count = pDecManager->count();
                  cout << "当前运行路数: " << pDecManager->count() << endl;
              }
  
              return (void*)0;
          }
      , nullptr);
  
  
      while (getchar() != 'q');
  
      cout << "总共帧数:" << sum << endl;
  
      pDecManager->closeAllDecoder();
  }