blob: 173cd16fcbf09b987f59bac29923a1c8786b420c [file] [log] [blame]
/*
* Copyright (c) 2012 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 "webrtc/modules/video_coding/codecs/test/stats.h"
#include <stdio.h>
#include <algorithm> // min_element, max_element
#include "webrtc/rtc_base/checks.h"
#include "webrtc/rtc_base/format_macros.h"
namespace webrtc {
namespace test {
namespace {
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;
}
} // namespace
Stats::Stats() {}
Stats::~Stats() {}
FrameStatistic& Stats::NewFrame(int frame_number) {
RTC_DCHECK_GE(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_.empty()) {
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_qp = 0;
int total_qp_count = 0;
size_t total_encoded_frames_lengths = 0;
size_t total_encoded_key_frames_lengths = 0;
size_t total_encoded_nonkey_frames_lengths = 0;
size_t num_keyframes = 0;
size_t num_nonkeyframes = 0;
for (const FrameStatistic& stat : stats_) {
total_encoding_time_in_us += stat.encode_time_in_us;
total_decoding_time_in_us += stat.decode_time_in_us;
total_encoded_frames_lengths += stat.encoded_frame_length_in_bytes;
if (stat.frame_type == webrtc::kVideoFrameKey) {
total_encoded_key_frames_lengths += stat.encoded_frame_length_in_bytes;
++num_keyframes;
} else {
total_encoded_nonkey_frames_lengths += stat.encoded_frame_length_in_bytes;
++num_nonkeyframes;
}
if (stat.qp >= 0) {
total_qp += stat.qp;
++total_qp_count;
}
}
// Encoding stats.
printf("Encoding time:\n");
FrameStatisticsIterator frame;
frame = std::min_element(stats_.begin(), stats_.end(), LessForEncodeTime);
printf(" Min : %7d us (frame %d)\n", frame->encode_time_in_us,
frame->frame_number);
frame = std::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 stats.
printf("Decoding time:\n");
// Only consider successfully decoded frames (packet loss may cause failures).
std::vector<FrameStatistic> decoded_frames;
for (const FrameStatistic& stat : stats_) {
if (stat.decoding_successful) {
decoded_frames.push_back(stat);
}
}
if (decoded_frames.empty()) {
printf("No successfully decoded frames exist in this statistics.\n");
} else {
frame = std::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 = std::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()));
}
// Frame size stats.
printf("Frame sizes:\n");
frame = std::min_element(stats_.begin(), stats_.end(), LessForEncodedSize);
printf(" Min : %7" PRIuS " bytes (frame %d)\n",
frame->encoded_frame_length_in_bytes, frame->frame_number);
frame = std::max_element(stats_.begin(), stats_.end(), LessForEncodedSize);
printf(" Max : %7" PRIuS " bytes (frame %d)\n",
frame->encoded_frame_length_in_bytes, frame->frame_number);
printf(" Average : %7" PRIuS " bytes\n",
total_encoded_frames_lengths / stats_.size());
if (num_keyframes > 0) {
printf(" Average key frame size : %7" PRIuS " bytes (%" PRIuS
" keyframes)\n",
total_encoded_key_frames_lengths / num_keyframes, num_keyframes);
}
if (num_nonkeyframes > 0) {
printf(" Average non-key frame size: %7" PRIuS " bytes (%" PRIuS
" frames)\n",
total_encoded_nonkey_frames_lengths / num_nonkeyframes,
num_nonkeyframes);
}
// Bitrate stats.
printf("Bit rates:\n");
frame = std::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 = std::max_element(stats_.begin(), stats_.end(), LessForBitRate);
printf(" Max bit rate: %7d kbps (frame %d)\n", frame->bit_rate_in_kbps,
frame->frame_number);
int avg_qp = (total_qp_count > 0) ? (total_qp / total_qp_count) : -1;
printf("Average QP: %d\n", avg_qp);
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