test/testsupport/metrics/video_metrics.cc - vendor/opensource/webrtc - Git at Google

 /*
  *  Copyright (c) 2011 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 "testsupport/metrics/video_metrics.h"

 #include <algorithm> // min_element, max_element
 #include <cassert>
 #include <cstdio>

 #include "common_video/libyuv/include/libyuv.h"

 namespace webrtc {
 namespace test {

 // Used for calculating min and max values
 static bool LessForFrameResultValue (const FrameResult& s1,
                                      const FrameResult& s2) {
     return s1.value < s2.value;
 }

 enum VideoMetricsType { kPSNR, kSSIM, kBoth };

 // Calculates metrics for a frame and adds statistics to the result for it.
 void CalculateFrame(VideoMetricsType video_metrics_type,
                     uint8_t* ref,
                     uint8_t* test,
                     int width,
                     int height,
                     int frame_number,
                     QualityMetricsResult* result) {
   FrameResult frame_result;
   frame_result.frame_number = frame_number;
   switch (video_metrics_type) {
     case kPSNR:
       frame_result.value = I420PSNR(ref, test, width, height);
       break;
     case kSSIM:
       frame_result.value = I420SSIM(ref, test, width, height);
       break;
     default:
       assert(false);
   }
   result->frames.push_back(frame_result);
 }

 // Calculates average, min and max values for the supplied struct, if non-NULL.
 void CalculateStats(QualityMetricsResult* result) {
   if (result == NULL || result->frames.size() == 0) {
     return;
   }
   // Calculate average
   std::vector<FrameResult>::iterator iter;
   double metrics_values_sum = 0.0;
   for (iter = result->frames.begin(); iter != result->frames.end(); ++iter) {
     metrics_values_sum += iter->value;
   }
   result->average = metrics_values_sum / result->frames.size();

   // Calculate min/max statistics
   iter = min_element(result->frames.begin(), result->frames.end(),
                      LessForFrameResultValue);
   result->min = iter->value;
   result->min_frame_number = iter->frame_number;
   iter = max_element(result->frames.begin(), result->frames.end(),
                      LessForFrameResultValue);
   result->max = iter->value;
   result->max_frame_number = iter->frame_number;
 }

 // Single method that handles all combinations of video metrics calculation, to
 // minimize code duplication. Either psnr_result or ssim_result may be NULL,
 // depending on which VideoMetricsType is targeted.
 int CalculateMetrics(VideoMetricsType video_metrics_type,
                      const char* ref_filename,
                      const char* test_filename,
                      int width,
                      int height,
                      QualityMetricsResult* psnr_result,
                      QualityMetricsResult* ssim_result) {
   assert(ref_filename != NULL);
   assert(test_filename != NULL);
   assert(width > 0);
   assert(height > 0);

   FILE* ref_fp = fopen(ref_filename, "rb");
   if (ref_fp == NULL) {
     // cannot open reference file
     fprintf(stderr, "Cannot open file %s\n", ref_filename);
     return -1;
   }
   FILE* test_fp = fopen(test_filename, "rb");
   if (test_fp == NULL) {
     // cannot open test file
     fprintf(stderr, "Cannot open file %s\n", test_filename);
     fclose(ref_fp);
     return -2;
   }
   int frame_number = 0;

   // Allocating size for one I420 frame.
   const int frame_length = 3 * width * height >> 1;
   uint8_t* ref = new uint8_t[frame_length];
   uint8_t* test = new uint8_t[frame_length];

   int ref_bytes = fread(ref, 1, frame_length, ref_fp);
   int test_bytes = fread(test, 1, frame_length, test_fp);
   while (ref_bytes == frame_length && test_bytes == frame_length) {
     switch (video_metrics_type) {
       case kPSNR:
         CalculateFrame(kPSNR, ref, test, width, height, frame_number,
                        psnr_result);
         break;
       case kSSIM:
         CalculateFrame(kSSIM, ref, test, width, height, frame_number,
                        ssim_result);
         break;
       case kBoth:
         CalculateFrame(kPSNR, ref, test, width, height, frame_number,
                        psnr_result);
         CalculateFrame(kSSIM, ref, test, width, height, frame_number,
                        ssim_result);
         break;
       default:
         assert(false);
     }
     frame_number++;
     ref_bytes = fread(ref, 1, frame_length, ref_fp);
     test_bytes = fread(test, 1, frame_length, test_fp);
   }
   int return_code = 0;
   if (frame_number == 0) {
     fprintf(stderr, "Tried to measure video metrics from empty files "
             "(reference file: %s  test file: %s)\n", ref_filename,
             test_filename);
     return_code = -3;
   } else {
     CalculateStats(psnr_result);
     CalculateStats(ssim_result);
   }
   delete [] ref;
   delete [] test;
   fclose(ref_fp);
   fclose(test_fp);
   return return_code;
 }

 int I420MetricsFromFiles(const char* ref_filename,
                          const char* test_filename,
                          int width,
                          int height,
                          QualityMetricsResult* psnr_result,
                          QualityMetricsResult* ssim_result) {
   assert(psnr_result != NULL);
   assert(ssim_result != NULL);
   return CalculateMetrics(kBoth, ref_filename, test_filename, width, height,
                           psnr_result, ssim_result);
 }

 int I420PSNRFromFiles(const char* ref_filename,
                       const char* test_filename,
                       int width,
                       int height,
                       QualityMetricsResult* result) {
   assert(result != NULL);
   return CalculateMetrics(kPSNR, ref_filename, test_filename, width, height,
                           result, NULL);
 }

 int I420SSIMFromFiles(const char* ref_filename,
                       const char* test_filename,
                       int width,
                       int height,
                       QualityMetricsResult* result) {
   assert(result != NULL);
   return CalculateMetrics(kSSIM, ref_filename, test_filename, width, height,
                           NULL, result);
 }

 }  // namespace test
 }  // namespace webrtc
	/*
	* Copyright (c) 2011 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 "testsupport/metrics/video_metrics.h"

	#include <algorithm> // min_element, max_element
	#include <cassert>
	#include <cstdio>

	#include "common_video/libyuv/include/libyuv.h"

	namespace webrtc {
	namespace test {

	// Used for calculating min and max values
	static bool LessForFrameResultValue (const FrameResult& s1,
	const FrameResult& s2) {
	return s1.value < s2.value;
	}

	enum VideoMetricsType { kPSNR, kSSIM, kBoth };

	// Calculates metrics for a frame and adds statistics to the result for it.
	void CalculateFrame(VideoMetricsType video_metrics_type,
	uint8_t* ref,
	uint8_t* test,
	int width,
	int height,
	int frame_number,
	QualityMetricsResult* result) {
	FrameResult frame_result;
	frame_result.frame_number = frame_number;
	switch (video_metrics_type) {
	case kPSNR:
	frame_result.value = I420PSNR(ref, test, width, height);
	break;
	case kSSIM:
	frame_result.value = I420SSIM(ref, test, width, height);
	break;
	default:
	assert(false);
	}
	result->frames.push_back(frame_result);
	}

	// Calculates average, min and max values for the supplied struct, if non-NULL.
	void CalculateStats(QualityMetricsResult* result) {
	if (result == NULL \|\| result->frames.size() == 0) {
	return;
	}
	// Calculate average
	std::vector<FrameResult>::iterator iter;
	double metrics_values_sum = 0.0;
	for (iter = result->frames.begin(); iter != result->frames.end(); ++iter) {
	metrics_values_sum += iter->value;
	}
	result->average = metrics_values_sum / result->frames.size();

	// Calculate min/max statistics
	iter = min_element(result->frames.begin(), result->frames.end(),
	LessForFrameResultValue);
	result->min = iter->value;
	result->min_frame_number = iter->frame_number;
	iter = max_element(result->frames.begin(), result->frames.end(),
	LessForFrameResultValue);
	result->max = iter->value;
	result->max_frame_number = iter->frame_number;
	}

	// Single method that handles all combinations of video metrics calculation, to
	// minimize code duplication. Either psnr_result or ssim_result may be NULL,
	// depending on which VideoMetricsType is targeted.
	int CalculateMetrics(VideoMetricsType video_metrics_type,
	const char* ref_filename,
	const char* test_filename,
	int width,
	int height,
	QualityMetricsResult* psnr_result,
	QualityMetricsResult* ssim_result) {
	assert(ref_filename != NULL);
	assert(test_filename != NULL);
	assert(width > 0);
	assert(height > 0);

	FILE* ref_fp = fopen(ref_filename, "rb");
	if (ref_fp == NULL) {
	// cannot open reference file
	fprintf(stderr, "Cannot open file %s\n", ref_filename);
	return -1;
	}
	FILE* test_fp = fopen(test_filename, "rb");
	if (test_fp == NULL) {
	// cannot open test file
	fprintf(stderr, "Cannot open file %s\n", test_filename);
	fclose(ref_fp);
	return -2;
	}
	int frame_number = 0;

	// Allocating size for one I420 frame.
	const int frame_length = 3 * width * height >> 1;
	uint8_t* ref = new uint8_t[frame_length];
	uint8_t* test = new uint8_t[frame_length];

	int ref_bytes = fread(ref, 1, frame_length, ref_fp);
	int test_bytes = fread(test, 1, frame_length, test_fp);
	while (ref_bytes == frame_length && test_bytes == frame_length) {
	switch (video_metrics_type) {
	case kPSNR:
	CalculateFrame(kPSNR, ref, test, width, height, frame_number,
	psnr_result);
	break;
	case kSSIM:
	CalculateFrame(kSSIM, ref, test, width, height, frame_number,
	ssim_result);
	break;
	case kBoth:
	CalculateFrame(kPSNR, ref, test, width, height, frame_number,
	psnr_result);
	CalculateFrame(kSSIM, ref, test, width, height, frame_number,
	ssim_result);
	break;
	default:
	assert(false);
	}
	frame_number++;
	ref_bytes = fread(ref, 1, frame_length, ref_fp);
	test_bytes = fread(test, 1, frame_length, test_fp);
	}
	int return_code = 0;
	if (frame_number == 0) {
	fprintf(stderr, "Tried to measure video metrics from empty files "
	"(reference file: %s test file: %s)\n", ref_filename,
	test_filename);
	return_code = -3;
	} else {
	CalculateStats(psnr_result);
	CalculateStats(ssim_result);
	}
	delete [] ref;
	delete [] test;
	fclose(ref_fp);
	fclose(test_fp);
	return return_code;
	}

	int I420MetricsFromFiles(const char* ref_filename,
	const char* test_filename,
	int width,
	int height,
	QualityMetricsResult* psnr_result,
	QualityMetricsResult* ssim_result) {
	assert(psnr_result != NULL);
	assert(ssim_result != NULL);
	return CalculateMetrics(kBoth, ref_filename, test_filename, width, height,
	psnr_result, ssim_result);
	}

	int I420PSNRFromFiles(const char* ref_filename,
	const char* test_filename,
	int width,
	int height,
	QualityMetricsResult* result) {
	assert(result != NULL);
	return CalculateMetrics(kPSNR, ref_filename, test_filename, width, height,
	result, NULL);
	}

	int I420SSIMFromFiles(const char* ref_filename,
	const char* test_filename,
	int width,
	int height,
	QualityMetricsResult* result) {
	assert(result != NULL);
	return CalculateMetrics(kSSIM, ref_filename, test_filename, width, height,
	NULL, result);
	}

	} // namespace test
	} // namespace webrtc