trunk/src/modules/video_coding/codecs/test/stats.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 "modules/video_coding/codecs/test/stats.h"

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

 namespace webrtc {
 namespace test {

 Stats::Stats() {}

 Stats::~Stats() {}

 bool LessForEncodeTime(const FrameStatistic& s1, const FrameStatistic& s2) {
     return s1.encode_time_in_us < s2.encode_time_in_us;
 }

 bool LessForDecodeTime(const FrameStatistic& s1, const FrameStatistic& s2) {
     return s1.decode_time_in_us < s2.decode_time_in_us;
 }

 bool LessForEncodedSize(const FrameStatistic& s1, const FrameStatistic& s2) {
     return s1.encoded_frame_length_in_bytes < s2.encoded_frame_length_in_bytes;
 }

 bool LessForBitRate(const FrameStatistic& s1, const FrameStatistic& s2) {
     return s1.bit_rate_in_kbps < s2.bit_rate_in_kbps;
 }

 FrameStatistic& Stats::NewFrame(int frame_number) {
   assert(frame_number >= 0);
   FrameStatistic stat;
   stat.frame_number = frame_number;
   stats_.push_back(stat);
   return stats_[frame_number];
 }

 void Stats::PrintSummary() {
   printf("Processing summary:\n");
   if (stats_.size() == 0) {
     printf("No frame statistics have been logged yet.\n");
     return;
   }

   // Calculate min, max, average and total encoding time
   int total_encoding_time_in_us = 0;
   int total_decoding_time_in_us = 0;
   int total_encoded_frames_lengths = 0;
   int total_encoded_key_frames_lengths = 0;
   int total_encoded_nonkey_frames_lengths = 0;
   int nbr_keyframes = 0;
   int nbr_nonkeyframes = 0;

   for (FrameStatisticsIterator it = stats_.begin();
       it != stats_.end(); ++it) {
     total_encoding_time_in_us += it->encode_time_in_us;
     total_decoding_time_in_us += it->decode_time_in_us;
     total_encoded_frames_lengths += it->encoded_frame_length_in_bytes;
     if (it->frame_type == webrtc::kKeyFrame) {
       total_encoded_key_frames_lengths += it->encoded_frame_length_in_bytes;
       nbr_keyframes++;
     } else {
       total_encoded_nonkey_frames_lengths += it->encoded_frame_length_in_bytes;
       nbr_nonkeyframes++;
     }
   }

   FrameStatisticsIterator frame;

   // ENCODING
   printf("Encoding time:\n");
   frame = min_element(stats_.begin(),
                       stats_.end(), LessForEncodeTime);
   printf("  Min     : %7d us (frame %d)\n",
          frame->encode_time_in_us, frame->frame_number);

   frame = max_element(stats_.begin(),
                       stats_.end(), LessForEncodeTime);
   printf("  Max     : %7d us (frame %d)\n",
          frame->encode_time_in_us, frame->frame_number);

   printf("  Average : %7d us\n",
          static_cast<int>(total_encoding_time_in_us / stats_.size()));

   // DECODING
   printf("Decoding time:\n");
   // only consider frames that were successfully decoded (packet loss may cause
   // failures)
   std::vector<FrameStatistic> decoded_frames;
   for (std::vector<FrameStatistic>::iterator it = stats_.begin();
       it != stats_.end(); ++it) {
     if (it->decoding_successful) {
       decoded_frames.push_back(*it);
     }
   }
   if (decoded_frames.size() == 0) {
     printf("No successfully decoded frames exist in this statistics.\n");
   } else {
     frame = min_element(decoded_frames.begin(),
                         decoded_frames.end(), LessForDecodeTime);
     printf("  Min     : %7d us (frame %d)\n",
            frame->decode_time_in_us, frame->frame_number);

     frame = max_element(decoded_frames.begin(),
                         decoded_frames.end(), LessForDecodeTime);
     printf("  Max     : %7d us (frame %d)\n",
            frame->decode_time_in_us, frame->frame_number);

     printf("  Average : %7d us\n",
            static_cast<int>(total_decoding_time_in_us / decoded_frames.size()));
     printf("  Failures: %d frames failed to decode.\n",
            static_cast<int>(stats_.size() - decoded_frames.size()));
   }

   // SIZE
   printf("Frame sizes:\n");
   frame = min_element(stats_.begin(),
                       stats_.end(), LessForEncodedSize);
   printf("  Min     : %7d bytes (frame %d)\n",
          frame->encoded_frame_length_in_bytes, frame->frame_number);

   frame = max_element(stats_.begin(),
                       stats_.end(), LessForEncodedSize);
   printf("  Max     : %7d bytes (frame %d)\n",
          frame->encoded_frame_length_in_bytes, frame->frame_number);

   printf("  Average : %7d bytes\n",
          static_cast<int>(total_encoded_frames_lengths / stats_.size()));
   if (nbr_keyframes > 0) {
     printf("  Average key frame size    : %7d bytes (%d keyframes)\n",
            total_encoded_key_frames_lengths / nbr_keyframes,
            nbr_keyframes);
   }
   if (nbr_nonkeyframes > 0) {
     printf("  Average non-key frame size: %7d bytes (%d frames)\n",
            total_encoded_nonkey_frames_lengths / nbr_nonkeyframes,
            nbr_nonkeyframes);
   }

   // BIT RATE
   printf("Bit rates:\n");
   frame = min_element(stats_.begin(),
                       stats_.end(), LessForBitRate);
   printf("  Min bit rate: %7d kbps (frame %d)\n",
          frame->bit_rate_in_kbps, frame->frame_number);

   frame = max_element(stats_.begin(),
                       stats_.end(), LessForBitRate);
   printf("  Max bit rate: %7d kbps (frame %d)\n",
          frame->bit_rate_in_kbps, frame->frame_number);

   printf("\n");
   printf("Total encoding time  : %7d ms.\n",
          total_encoding_time_in_us / 1000);
   printf("Total decoding time  : %7d ms.\n",
          total_decoding_time_in_us / 1000);
   printf("Total processing time: %7d ms.\n",
          (total_encoding_time_in_us + total_decoding_time_in_us) / 1000);
 }

 }  // 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 "modules/video_coding/codecs/test/stats.h"

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

	namespace webrtc {
	namespace test {

	Stats::Stats() {}

	Stats::~Stats() {}

	bool LessForEncodeTime(const FrameStatistic& s1, const FrameStatistic& s2) {
	return s1.encode_time_in_us < s2.encode_time_in_us;
	}

	bool LessForDecodeTime(const FrameStatistic& s1, const FrameStatistic& s2) {
	return s1.decode_time_in_us < s2.decode_time_in_us;
	}

	bool LessForEncodedSize(const FrameStatistic& s1, const FrameStatistic& s2) {
	return s1.encoded_frame_length_in_bytes < s2.encoded_frame_length_in_bytes;
	}

	bool LessForBitRate(const FrameStatistic& s1, const FrameStatistic& s2) {
	return s1.bit_rate_in_kbps < s2.bit_rate_in_kbps;
	}

	FrameStatistic& Stats::NewFrame(int frame_number) {
	assert(frame_number >= 0);
	FrameStatistic stat;
	stat.frame_number = frame_number;
	stats_.push_back(stat);
	return stats_[frame_number];
	}

	void Stats::PrintSummary() {
	printf("Processing summary:\n");
	if (stats_.size() == 0) {
	printf("No frame statistics have been logged yet.\n");
	return;
	}

	// Calculate min, max, average and total encoding time
	int total_encoding_time_in_us = 0;
	int total_decoding_time_in_us = 0;
	int total_encoded_frames_lengths = 0;
	int total_encoded_key_frames_lengths = 0;
	int total_encoded_nonkey_frames_lengths = 0;
	int nbr_keyframes = 0;
	int nbr_nonkeyframes = 0;

	for (FrameStatisticsIterator it = stats_.begin();
	it != stats_.end(); ++it) {
	total_encoding_time_in_us += it->encode_time_in_us;
	total_decoding_time_in_us += it->decode_time_in_us;
	total_encoded_frames_lengths += it->encoded_frame_length_in_bytes;
	if (it->frame_type == webrtc::kKeyFrame) {
	total_encoded_key_frames_lengths += it->encoded_frame_length_in_bytes;
	nbr_keyframes++;
	} else {
	total_encoded_nonkey_frames_lengths += it->encoded_frame_length_in_bytes;
	nbr_nonkeyframes++;
	}
	}

	FrameStatisticsIterator frame;

	// ENCODING
	printf("Encoding time:\n");
	frame = min_element(stats_.begin(),
	stats_.end(), LessForEncodeTime);
	printf(" Min : %7d us (frame %d)\n",
	frame->encode_time_in_us, frame->frame_number);

	frame = max_element(stats_.begin(),
	stats_.end(), LessForEncodeTime);
	printf(" Max : %7d us (frame %d)\n",
	frame->encode_time_in_us, frame->frame_number);

	printf(" Average : %7d us\n",
	static_cast<int>(total_encoding_time_in_us / stats_.size()));

	// DECODING
	printf("Decoding time:\n");
	// only consider frames that were successfully decoded (packet loss may cause
	// failures)
	std::vector<FrameStatistic> decoded_frames;
	for (std::vector<FrameStatistic>::iterator it = stats_.begin();
	it != stats_.end(); ++it) {
	if (it->decoding_successful) {
	decoded_frames.push_back(*it);
	}
	}
	if (decoded_frames.size() == 0) {
	printf("No successfully decoded frames exist in this statistics.\n");
	} else {
	frame = min_element(decoded_frames.begin(),
	decoded_frames.end(), LessForDecodeTime);
	printf(" Min : %7d us (frame %d)\n",
	frame->decode_time_in_us, frame->frame_number);

	frame = max_element(decoded_frames.begin(),
	decoded_frames.end(), LessForDecodeTime);
	printf(" Max : %7d us (frame %d)\n",
	frame->decode_time_in_us, frame->frame_number);

	printf(" Average : %7d us\n",
	static_cast<int>(total_decoding_time_in_us / decoded_frames.size()));
	printf(" Failures: %d frames failed to decode.\n",
	static_cast<int>(stats_.size() - decoded_frames.size()));
	}

	// SIZE
	printf("Frame sizes:\n");
	frame = min_element(stats_.begin(),
	stats_.end(), LessForEncodedSize);
	printf(" Min : %7d bytes (frame %d)\n",
	frame->encoded_frame_length_in_bytes, frame->frame_number);

	frame = max_element(stats_.begin(),
	stats_.end(), LessForEncodedSize);
	printf(" Max : %7d bytes (frame %d)\n",
	frame->encoded_frame_length_in_bytes, frame->frame_number);

	printf(" Average : %7d bytes\n",
	static_cast<int>(total_encoded_frames_lengths / stats_.size()));
	if (nbr_keyframes > 0) {
	printf(" Average key frame size : %7d bytes (%d keyframes)\n",
	total_encoded_key_frames_lengths / nbr_keyframes,
	nbr_keyframes);
	}
	if (nbr_nonkeyframes > 0) {
	printf(" Average non-key frame size: %7d bytes (%d frames)\n",
	total_encoded_nonkey_frames_lengths / nbr_nonkeyframes,
	nbr_nonkeyframes);
	}

	// BIT RATE
	printf("Bit rates:\n");
	frame = min_element(stats_.begin(),
	stats_.end(), LessForBitRate);
	printf(" Min bit rate: %7d kbps (frame %d)\n",
	frame->bit_rate_in_kbps, frame->frame_number);

	frame = max_element(stats_.begin(),
	stats_.end(), LessForBitRate);
	printf(" Max bit rate: %7d kbps (frame %d)\n",
	frame->bit_rate_in_kbps, frame->frame_number);

	printf("\n");
	printf("Total encoding time : %7d ms.\n",
	total_encoding_time_in_us / 1000);
	printf("Total decoding time : %7d ms.\n",
	total_decoding_time_in_us / 1000);
	printf("Total processing time: %7d ms.\n",
	(total_encoding_time_in_us + total_decoding_time_in_us) / 1000);
	}

	} // namespace test
	} // namespace webrtc