rtc_tools/frame_analyzer/reference_less_video_analysis_lib.cc - src/webrtc - Git at Google

 /*
  *  Copyright (c) 2016 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <iostream>
 #include <numeric>
 #include <vector>

 #include "webrtc/rtc_tools/frame_analyzer/reference_less_video_analysis_lib.h"
 #include "webrtc/rtc_tools/frame_analyzer/video_quality_analysis.h"

 #define STATS_LINE_LENGTH 28
 #define PSNR_FREEZE_THRESHOLD 47
 #define SSIM_FREEZE_THRESHOLD .999

 #if defined(_WIN32) || defined(_WIN64)
 #define strtok_r strtok_s
 #endif

 void get_height_width_fps(int *height, int *width, int *fps,
                           const std::string& video_file) {
   // File header looks like :
   //  YUV4MPEG2 W1280 H720 F25:1 Ip A0:0 C420mpeg2 XYSCSS=420MPEG2.
   char frame_header[STATS_LINE_LENGTH];
   FILE* input_file = fopen(video_file.c_str(), "rb");

   size_t bytes_read = fread(frame_header, 1, STATS_LINE_LENGTH - 1, input_file);

   frame_header[bytes_read] = '\0';
   std::string file_header_stats[5];
   int no_of_stats = 0;
   char *save_ptr;
   char *token = strtok_r(frame_header, " ", &save_ptr);

   while (token != NULL) {
     file_header_stats[no_of_stats++] = token;
     token = strtok_r(NULL, " ", &save_ptr);
   }

   *width = std::stoi(file_header_stats[1].erase(0, 1));
   *height = std::stoi(file_header_stats[2].erase(0, 1));
   *fps = std::stoi(file_header_stats[3].erase(0, 1));

   printf("Height: %d Width: %d fps:%d \n", *height, *width, *fps);
   fclose(input_file);
 }

 bool frozen_frame(std::vector<double> psnr_per_frame,
                   std::vector<double> ssim_per_frame, size_t frame) {
   if (psnr_per_frame[frame] >= PSNR_FREEZE_THRESHOLD ||
       ssim_per_frame[frame] >= SSIM_FREEZE_THRESHOLD)
     return true;
   return false;
 }

 std::vector<int> find_frame_clusters(const std::vector<double>& psnr_per_frame,
                                    const std::vector<double>& ssim_per_frame) {
   std::vector<int> identical_frame_clusters;
   int num_frozen = 0;
   size_t total_no_of_frames = psnr_per_frame.size();

   for (size_t each_frame = 0; each_frame < total_no_of_frames; each_frame++) {
       if (frozen_frame(psnr_per_frame, ssim_per_frame, each_frame)) {
         num_frozen++;
         } else if (num_frozen > 0) {
           // Not frozen anymore.
           identical_frame_clusters.push_back(num_frozen);
           num_frozen = 0;
         }
   }
   return identical_frame_clusters;
 }

 void print_freezing_metrics(const std::vector<double>& psnr_per_frame,
                             const std::vector<double>& ssim_per_frame) {
   /*
    * Prints the different metrics mainly:
    * 1) Identical frame number, PSNR and SSIM values.
    * 2) Length of continuous frozen frames.
    * 3) Max length of continuous freezed frames.
    * 4) No of unique frames found.
    * 5) Total different identical frames found.
    *
    * Sample output:
    *  Printing metrics for file: /src/webrtc/rtc_tools/test_3.y4m
       =============================
       Total number of frames received: 74
       Total identical frames: 5
       Number of unique frames: 69
       Printing Identical Frames:
         Frame Number: 29 PSNR: 48.000000 SSIM: 0.999618
         Frame Number: 30 PSNR: 48.000000 SSIM: 0.999898
         Frame Number: 60 PSNR: 48.000000 SSIM: 0.999564
         Frame Number: 64 PSNR: 48.000000 SSIM: 0.999651
         Frame Number: 69 PSNR: 48.000000 SSIM: 0.999684
       Print identical frame which appears in clusters :
         2 1 1 1
    *
    */
   size_t total_no_of_frames = psnr_per_frame.size();
   std::vector<int> identical_frame_clusters = find_frame_clusters(
         psnr_per_frame, ssim_per_frame);
   int total_identical_frames = std::accumulate(
       identical_frame_clusters.begin(), identical_frame_clusters.end(), 0);
   size_t unique_frames = total_no_of_frames - total_identical_frames;

   printf("Total number of frames received: %zu\n", total_no_of_frames);
   printf("Total identical frames: %d\n", total_identical_frames);
   printf("Number of unique frames: %zu\n", unique_frames);

   printf("Printing Identical Frames: \n");
   for (size_t frame = 0; frame < total_no_of_frames; frame++) {
     if (frozen_frame(psnr_per_frame, ssim_per_frame, frame)) {
       printf("  Frame Number: %zu PSNR: %f SSIM: %f \n", frame,
              psnr_per_frame[frame], ssim_per_frame[frame]);
     }
   }

   printf("Print identical frame which appears in clusters : \n");
   for (int cluster = 0;
       cluster < static_cast<int>(identical_frame_clusters.size()); cluster++)
     printf("%d ", identical_frame_clusters[cluster]);
   printf("\n");
 }

 void compute_metrics(const std::string& video_file_name,
                      std::vector<double>* psnr_per_frame,
                      std::vector<double>* ssim_per_frame) {
   int height = 0, width = 0, fps = 0;
   get_height_width_fps(&height, &width, &fps, video_file_name);

   int no_of_frames = 0;
   int size = webrtc::test::GetI420FrameSize(width, height);

   // Allocate buffers for test and reference frames.
   uint8_t* current_frame = new uint8_t[size];
   uint8_t* next_frame = new uint8_t[size];

   while (true) {
     if (!(webrtc::test::ExtractFrameFromY4mFile (video_file_name.c_str(),
                                                  width, height,
                                                  no_of_frames,
                                                  current_frame))) {
       break;
     }

     if (!(webrtc::test::ExtractFrameFromY4mFile (video_file_name.c_str(),
                                                  width, height,
                                                  no_of_frames + 1,
                                                  next_frame))) {
       break;
     }

     double result_psnr = webrtc::test::CalculateMetrics(webrtc::test::kPSNR,
                                                         current_frame,
                                                         next_frame,
                                                         width, height);
     double result_ssim = webrtc::test::CalculateMetrics(webrtc::test::kSSIM,
                                                         current_frame,
                                                         next_frame,
                                                         width, height);

     psnr_per_frame->push_back(result_psnr);
     ssim_per_frame->push_back(result_ssim);
     no_of_frames++;
   }
   // Cleanup.
   delete[] current_frame;
   delete[] next_frame;
 }

 bool check_file_extension(const std::string& video_file_name) {
   if (video_file_name.substr(video_file_name.length()-3, 3) != "y4m") {
     printf("Only y4m video file format is supported. Given: %s\n",
            video_file_name.c_str());
     return false;
   }
   return true;
 }

 int run_analysis(const std::string& video_file) {
   std::vector<double> psnr_per_frame;
   std::vector<double> ssim_per_frame;
   if (check_file_extension(video_file)) {
     compute_metrics(video_file, &psnr_per_frame, &ssim_per_frame);
   } else {
     return -1;
   }
   printf("=============================\n");
   printf("Printing metrics for file: %s\n", video_file.c_str());
   printf("=============================\n");
   print_freezing_metrics(psnr_per_frame, ssim_per_frame);
   return 0;
 }
	/*
	* Copyright (c) 2016 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#include <iostream>
	#include <numeric>
	#include <vector>

	#include "webrtc/rtc_tools/frame_analyzer/reference_less_video_analysis_lib.h"
	#include "webrtc/rtc_tools/frame_analyzer/video_quality_analysis.h"

	#define STATS_LINE_LENGTH 28
	#define PSNR_FREEZE_THRESHOLD 47
	#define SSIM_FREEZE_THRESHOLD .999

	#if defined(_WIN32) \|\| defined(_WIN64)
	#define strtok_r strtok_s
	#endif

	void get_height_width_fps(int height, int width, int *fps,
	const std::string& video_file) {
	// File header looks like :
	// YUV4MPEG2 W1280 H720 F25:1 Ip A0:0 C420mpeg2 XYSCSS=420MPEG2.
	char frame_header[STATS_LINE_LENGTH];
	FILE* input_file = fopen(video_file.c_str(), "rb");

	size_t bytes_read = fread(frame_header, 1, STATS_LINE_LENGTH - 1, input_file);

	frame_header[bytes_read] = '\0';
	std::string file_header_stats[5];
	int no_of_stats = 0;
	char *save_ptr;
	char *token = strtok_r(frame_header, " ", &save_ptr);

	while (token != NULL) {
	file_header_stats[no_of_stats++] = token;
	token = strtok_r(NULL, " ", &save_ptr);
	}

	*width = std::stoi(file_header_stats[1].erase(0, 1));
	*height = std::stoi(file_header_stats[2].erase(0, 1));
	*fps = std::stoi(file_header_stats[3].erase(0, 1));

	printf("Height: %d Width: %d fps:%d \n", height, width, *fps);
	fclose(input_file);
	}

	bool frozen_frame(std::vector<double> psnr_per_frame,
	std::vector<double> ssim_per_frame, size_t frame) {
	if (psnr_per_frame[frame] >= PSNR_FREEZE_THRESHOLD \|\|
	ssim_per_frame[frame] >= SSIM_FREEZE_THRESHOLD)
	return true;
	return false;
	}

	std::vector<int> find_frame_clusters(const std::vector<double>& psnr_per_frame,
	const std::vector<double>& ssim_per_frame) {
	std::vector<int> identical_frame_clusters;
	int num_frozen = 0;
	size_t total_no_of_frames = psnr_per_frame.size();

	for (size_t each_frame = 0; each_frame < total_no_of_frames; each_frame++) {
	if (frozen_frame(psnr_per_frame, ssim_per_frame, each_frame)) {
	num_frozen++;
	} else if (num_frozen > 0) {
	// Not frozen anymore.
	identical_frame_clusters.push_back(num_frozen);
	num_frozen = 0;
	}
	}
	return identical_frame_clusters;
	}

	void print_freezing_metrics(const std::vector<double>& psnr_per_frame,
	const std::vector<double>& ssim_per_frame) {
	/*
	* Prints the different metrics mainly:
	* 1) Identical frame number, PSNR and SSIM values.
	* 2) Length of continuous frozen frames.
	* 3) Max length of continuous freezed frames.
	* 4) No of unique frames found.
	* 5) Total different identical frames found.
	*
	* Sample output:
	* Printing metrics for file: /src/webrtc/rtc_tools/test_3.y4m
	=============================
	Total number of frames received: 74
	Total identical frames: 5
	Number of unique frames: 69
	Printing Identical Frames:
	Frame Number: 29 PSNR: 48.000000 SSIM: 0.999618
	Frame Number: 30 PSNR: 48.000000 SSIM: 0.999898
	Frame Number: 60 PSNR: 48.000000 SSIM: 0.999564
	Frame Number: 64 PSNR: 48.000000 SSIM: 0.999651
	Frame Number: 69 PSNR: 48.000000 SSIM: 0.999684
	Print identical frame which appears in clusters :
	2 1 1 1
	*
	*/
	size_t total_no_of_frames = psnr_per_frame.size();
	std::vector<int> identical_frame_clusters = find_frame_clusters(
	psnr_per_frame, ssim_per_frame);
	int total_identical_frames = std::accumulate(
	identical_frame_clusters.begin(), identical_frame_clusters.end(), 0);
	size_t unique_frames = total_no_of_frames - total_identical_frames;

	printf("Total number of frames received: %zu\n", total_no_of_frames);
	printf("Total identical frames: %d\n", total_identical_frames);
	printf("Number of unique frames: %zu\n", unique_frames);

	printf("Printing Identical Frames: \n");
	for (size_t frame = 0; frame < total_no_of_frames; frame++) {
	if (frozen_frame(psnr_per_frame, ssim_per_frame, frame)) {
	printf(" Frame Number: %zu PSNR: %f SSIM: %f \n", frame,
	psnr_per_frame[frame], ssim_per_frame[frame]);
	}
	}

	printf("Print identical frame which appears in clusters : \n");
	for (int cluster = 0;
	cluster < static_cast<int>(identical_frame_clusters.size()); cluster++)
	printf("%d ", identical_frame_clusters[cluster]);
	printf("\n");
	}

	void compute_metrics(const std::string& video_file_name,
	std::vector<double>* psnr_per_frame,
	std::vector<double>* ssim_per_frame) {
	int height = 0, width = 0, fps = 0;
	get_height_width_fps(&height, &width, &fps, video_file_name);

	int no_of_frames = 0;
	int size = webrtc::test::GetI420FrameSize(width, height);

	// Allocate buffers for test and reference frames.
	uint8_t* current_frame = new uint8_t[size];
	uint8_t* next_frame = new uint8_t[size];

	while (true) {
	if (!(webrtc::test::ExtractFrameFromY4mFile (video_file_name.c_str(),
	width, height,
	no_of_frames,
	current_frame))) {
	break;
	}

	if (!(webrtc::test::ExtractFrameFromY4mFile (video_file_name.c_str(),
	width, height,
	no_of_frames + 1,
	next_frame))) {
	break;
	}

	double result_psnr = webrtc::test::CalculateMetrics(webrtc::test::kPSNR,
	current_frame,
	next_frame,
	width, height);
	double result_ssim = webrtc::test::CalculateMetrics(webrtc::test::kSSIM,
	current_frame,
	next_frame,
	width, height);

	psnr_per_frame->push_back(result_psnr);
	ssim_per_frame->push_back(result_ssim);
	no_of_frames++;
	}
	// Cleanup.
	delete[] current_frame;
	delete[] next_frame;
	}

	bool check_file_extension(const std::string& video_file_name) {
	if (video_file_name.substr(video_file_name.length()-3, 3) != "y4m") {
	printf("Only y4m video file format is supported. Given: %s\n",
	video_file_name.c_str());
	return false;
	}
	return true;
	}

	int run_analysis(const std::string& video_file) {
	std::vector<double> psnr_per_frame;
	std::vector<double> ssim_per_frame;
	if (check_file_extension(video_file)) {
	compute_metrics(video_file, &psnr_per_frame, &ssim_per_frame);
	} else {
	return -1;
	}
	printf("=============================\n");
	printf("Printing metrics for file: %s\n", video_file.c_str());
	printf("=============================\n");
	print_freezing_metrics(psnr_per_frame, ssim_per_frame);
	return 0;
	}