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webrtc / src / webrtc / 8fb19c978af57571eaf6768783a3383dfa5e7bc4 / . / test / testsupport / metrics / video_metrics.cc
blob: e150f369ab62fa530ee5bae7f183181fa76b66d4 [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/test/testsupport/metrics/video_metrics.h"
#include <assert.h>
#include <stdio.h>
#include <algorithm> // min_element, max_element
#include <memory>
#include "webrtc/api/video/i420_buffer.h"
#include "webrtc/api/video/video_frame.h"
#include "webrtc/common_video/libyuv/include/webrtc_libyuv.h"
#include "webrtc/test/frame_utils.h"
#include "libyuv/convert.h"
namespace webrtc {
namespace test {
// Copy here so our callers won't need to include libyuv for this constant.
double kMetricsPerfectPSNR = kPerfectPSNR;
// 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,
const I420BufferInterface& ref,
const I420BufferInterface& test,
int frame_number,
QualityMetricsResult* result) {
FrameResult frame_result = {0, 0};
frame_result.frame_number = frame_number;
switch (video_metrics_type) {
case kPSNR:
frame_result.value = I420PSNR(ref, test);
break;
case kSSIM:
frame_result.value = I420SSIM(ref, test);
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 = std::min_element(result->frames.begin(), result->frames.end(),
LessForFrameResultValue);
result->min = iter->value;
result->min_frame_number = iter->frame_number;
iter = std::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;
// Read reference and test frames.
for (;;) {
rtc::scoped_refptr<I420Buffer> ref_i420_buffer(
test::ReadI420Buffer(width, height, ref_fp));
if (!ref_i420_buffer)
break;
rtc::scoped_refptr<I420Buffer> test_i420_buffer(
test::ReadI420Buffer(width, height, test_fp));
if (!test_i420_buffer)
break;
switch (video_metrics_type) {
case kPSNR:
CalculateFrame(kPSNR, *ref_i420_buffer, *test_i420_buffer, frame_number,
psnr_result);
break;
case kSSIM:
CalculateFrame(kSSIM, *ref_i420_buffer, *test_i420_buffer, frame_number,
ssim_result);
break;
case kBoth:
CalculateFrame(kPSNR, *ref_i420_buffer, *test_i420_buffer, frame_number,
psnr_result);
CalculateFrame(kSSIM, *ref_i420_buffer, *test_i420_buffer, frame_number,
ssim_result);
break;
}
frame_number++;
}
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);
}
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