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/*
* 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 "modules/video_processing/util/noise_estimation.h"
#if DISPLAYNEON
#include <android/log.h>
#endif
namespace webrtc {
void NoiseEstimation::Init(int width, int height, CpuType cpu_type) {
int mb_cols = width >> 4;
int mb_rows = height >> 4;
consec_low_var_.reset(new uint32_t[mb_cols * mb_rows]());
width_ = width;
height_ = height;
mb_cols_ = width_ >> 4;
mb_rows_ = height_ >> 4;
cpu_type_ = cpu_type;
}
void NoiseEstimation::GetNoise(int mb_index, uint32_t var, uint32_t luma) {
consec_low_var_[mb_index]++;
num_static_block_++;
if (consec_low_var_[mb_index] >= kConsecLowVarFrame &&
(luma >> 6) < kAverageLumaMax && (luma >> 6) > kAverageLumaMin) {
// Normalized var by the average luma value, this gives more weight to
// darker blocks.
int nor_var = var / (luma >> 10);
noise_var_ +=
nor_var > kBlockSelectionVarMax ? kBlockSelectionVarMax : nor_var;
num_noisy_block_++;
}
}
void NoiseEstimation::ResetConsecLowVar(int mb_index) {
consec_low_var_[mb_index] = 0;
}
void NoiseEstimation::UpdateNoiseLevel() {
// TODO(jackychen): Tune a threshold for numb_noisy_block > T to make the
// condition more reasonable.
// No enough samples implies the motion of the camera or too many moving
// objects in the frame.
if (num_static_block_ <
(0.65 * mb_cols_ * mb_rows_ / NOISE_SUBSAMPLE_INTERVAL) ||
!num_noisy_block_) {
#if DISPLAY
printf("Not enough samples. %d \n", num_static_block_);
#elif DISPLAYNEON
__android_log_print(ANDROID_LOG_DEBUG, "DISPLAY",
"Not enough samples. %d \n", num_static_block_);
#endif
noise_var_ = 0;
noise_var_accum_ = 0;
num_noisy_block_ = 0;
num_static_block_ = 0;
return;
} else {
#if DISPLAY
printf("%d %d fraction = %.3f\n", num_static_block_,
mb_cols_ * mb_rows_ / NOISE_SUBSAMPLE_INTERVAL,
percent_static_block_);
#elif DISPLAYNEON
__android_log_print(ANDROID_LOG_DEBUG, "DISPLAY", "%d %d fraction = %.3f\n",
num_static_block_,
mb_cols_ * mb_rows_ / NOISE_SUBSAMPLE_INTERVAL,
percent_static_block_);
#endif
// Normalized by the number of noisy blocks.
noise_var_ /= num_noisy_block_;
// Get the percentage of static blocks.
percent_static_block_ = static_cast<double>(num_static_block_) /
(mb_cols_ * mb_rows_ / NOISE_SUBSAMPLE_INTERVAL);
num_noisy_block_ = 0;
num_static_block_ = 0;
}
// For the first frame just update the value with current noise_var_,
// otherwise, use the averaging window.
if (noise_var_accum_ == 0) {
noise_var_accum_ = noise_var_;
} else {
noise_var_accum_ = (noise_var_accum_ * 15 + noise_var_) / 16;
}
#if DISPLAY
printf("noise_var_accum_ = %.1f, noise_var_ = %d.\n", noise_var_accum_,
noise_var_);
#elif DISPLAYNEON
__android_log_print(ANDROID_LOG_DEBUG, "DISPLAY",
"noise_var_accum_ = %.1f, noise_var_ = %d.\n",
noise_var_accum_, noise_var_);
#endif
// Reset noise_var_ for the next frame.
noise_var_ = 0;
}
uint8_t NoiseEstimation::GetNoiseLevel() {
int noise_thr = cpu_type_ ? kNoiseThreshold : kNoiseThresholdNeon;
UpdateNoiseLevel();
if (noise_var_accum_ > noise_thr) {
return 1;
}
return 0;
}
} // namespace webrtc