webrtc/modules/video_processing/video_denoiser.cc - src - Git at Google

 /*
  *  Copyright (c) 2015 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/common_video/libyuv/include/webrtc_libyuv.h"
 #include "webrtc/modules/video_processing/video_denoiser.h"

 namespace webrtc {

 #if DISPLAY || DISPLAYNEON
 static void CopyMem8x8(const uint8_t* src,
                        int src_stride,
                        uint8_t* dst,
                        int dst_stride) {
   for (int i = 0; i < 8; i++) {
     memcpy(dst, src, 8);
     src += src_stride;
     dst += dst_stride;
   }
 }

 static void ShowRect(const std::unique_ptr<DenoiserFilter>& filter,
                      const std::unique_ptr<uint8_t[]>& d_status,
                      const std::unique_ptr<uint8_t[]>& moving_edge_red,
                      const std::unique_ptr<uint8_t[]>& x_density,
                      const std::unique_ptr<uint8_t[]>& y_density,
                      const uint8_t* u_src,
                      const uint8_t* v_src,
                      uint8_t* u_dst,
                      uint8_t* v_dst,
                      int mb_rows_,
                      int mb_cols_,
                      int stride_u_,
                      int stride_v_) {
   for (int mb_row = 0; mb_row < mb_rows_; ++mb_row) {
     for (int mb_col = 0; mb_col < mb_cols_; ++mb_col) {
       int mb_index = mb_row * mb_cols_ + mb_col;
       const uint8_t* mb_src_u =
           u_src + (mb_row << 3) * stride_u_ + (mb_col << 3);
       const uint8_t* mb_src_v =
           v_src + (mb_row << 3) * stride_v_ + (mb_col << 3);
       uint8_t* mb_dst_u = u_dst + (mb_row << 3) * stride_u_ + (mb_col << 3);
       uint8_t* mb_dst_v = v_dst + (mb_row << 3) * stride_v_ + (mb_col << 3);
       uint8_t uv_tmp[8 * 8];
       memset(uv_tmp, 200, 8 * 8);
       if (d_status[mb_index] == 1) {
         // Paint to red.
         CopyMem8x8(mb_src_u, stride_u_, mb_dst_u, stride_u_);
         CopyMem8x8(uv_tmp, 8, mb_dst_v, stride_v_);
       } else if (moving_edge_red[mb_row * mb_cols_ + mb_col] &&
                  x_density[mb_col] * y_density[mb_row]) {
         // Paint to blue.
         CopyMem8x8(uv_tmp, 8, mb_dst_u, stride_u_);
         CopyMem8x8(mb_src_v, stride_v_, mb_dst_v, stride_v_);
       } else {
         CopyMem8x8(mb_src_u, stride_u_, mb_dst_u, stride_u_);
         CopyMem8x8(mb_src_v, stride_v_, mb_dst_v, stride_v_);
       }
     }
   }
 }
 #endif

 VideoDenoiser::VideoDenoiser(bool runtime_cpu_detection)
     : width_(0),
       height_(0),
       filter_(DenoiserFilter::Create(runtime_cpu_detection, &cpu_type_)),
       ne_(new NoiseEstimation()) {}

 void VideoDenoiser::DenoiserReset(
     const rtc::scoped_refptr<VideoFrameBuffer>& frame,
     rtc::scoped_refptr<I420Buffer>* denoised_frame,
     rtc::scoped_refptr<I420Buffer>* denoised_frame_prev) {
   width_ = frame->width();
   height_ = frame->height();
   mb_cols_ = width_ >> 4;
   mb_rows_ = height_ >> 4;
   stride_y_ = frame->StrideY();
   stride_u_ = frame->StrideU();
   stride_v_ = frame->StrideV();

   // Allocate an empty buffer for denoised_frame_prev.
   *denoised_frame_prev = I420Buffer::Create(
       width_, height_, stride_y_, stride_u_, stride_v_);
   // Allocate and initialize denoised_frame with key frame.
   *denoised_frame = I420Buffer::CopyKeepStride(frame);

   // Init noise estimator and allocate buffers.
   ne_->Init(width_, height_, cpu_type_);
   moving_edge_.reset(new uint8_t[mb_cols_ * mb_rows_]);
   mb_filter_decision_.reset(new DenoiserDecision[mb_cols_ * mb_rows_]);
   x_density_.reset(new uint8_t[mb_cols_]);
   y_density_.reset(new uint8_t[mb_rows_]);
   moving_object_.reset(new uint8_t[mb_cols_ * mb_rows_]);
 }

 int VideoDenoiser::PositionCheck(int mb_row, int mb_col, int noise_level) {
   if (noise_level == 0)
     return 1;
   if ((mb_row <= (mb_rows_ >> 4)) || (mb_col <= (mb_cols_ >> 4)) ||
       (mb_col >= (15 * mb_cols_ >> 4)))
     return 3;
   else if ((mb_row <= (mb_rows_ >> 3)) || (mb_col <= (mb_cols_ >> 3)) ||
            (mb_col >= (7 * mb_cols_ >> 3)))
     return 2;
   else
     return 1;
 }

 void VideoDenoiser::ReduceFalseDetection(
     const std::unique_ptr<uint8_t[]>& d_status,
     std::unique_ptr<uint8_t[]>* moving_edge_red,
     int noise_level) {
   // From up left corner.
   int mb_col_stop = mb_cols_ - 1;
   for (int mb_row = 0; mb_row <= mb_rows_ - 1; ++mb_row) {
     for (int mb_col = 0; mb_col <= mb_col_stop; ++mb_col) {
       if (d_status[mb_row * mb_cols_ + mb_col]) {
         mb_col_stop = mb_col - 1;
         break;
       }
       (*moving_edge_red)[mb_row * mb_cols_ + mb_col] = 0;
     }
   }
   // From bottom left corner.
   mb_col_stop = mb_cols_ - 1;
   for (int mb_row = mb_rows_ - 1; mb_row >= 0; --mb_row) {
     for (int mb_col = 0; mb_col <= mb_col_stop; ++mb_col) {
       if (d_status[mb_row * mb_cols_ + mb_col]) {
         mb_col_stop = mb_col - 1;
         break;
       }
       (*moving_edge_red)[mb_row * mb_cols_ + mb_col] = 0;
     }
   }
   // From up right corner.
   mb_col_stop = 0;
   for (int mb_row = 0; mb_row <= mb_rows_ - 1; ++mb_row) {
     for (int mb_col = mb_cols_ - 1; mb_col >= mb_col_stop; --mb_col) {
       if (d_status[mb_row * mb_cols_ + mb_col]) {
         mb_col_stop = mb_col + 1;
         break;
       }
       (*moving_edge_red)[mb_row * mb_cols_ + mb_col] = 0;
     }
   }
   // From bottom right corner.
   mb_col_stop = 0;
   for (int mb_row = mb_rows_ - 1; mb_row >= 0; --mb_row) {
     for (int mb_col = mb_cols_ - 1; mb_col >= mb_col_stop; --mb_col) {
       if (d_status[mb_row * mb_cols_ + mb_col]) {
         mb_col_stop = mb_col + 1;
         break;
       }
       (*moving_edge_red)[mb_row * mb_cols_ + mb_col] = 0;
     }
   }
 }

 bool VideoDenoiser::IsTrailingBlock(const std::unique_ptr<uint8_t[]>& d_status,
                                     int mb_row,
                                     int mb_col) {
   bool ret = false;
   int mb_index = mb_row * mb_cols_ + mb_col;
   if (!mb_row || !mb_col || mb_row == mb_rows_ - 1 || mb_col == mb_cols_ - 1)
     ret = false;
   else
     ret = d_status[mb_index + 1] || d_status[mb_index - 1] ||
           d_status[mb_index + mb_cols_] || d_status[mb_index - mb_cols_];
   return ret;
 }

 void VideoDenoiser::CopySrcOnMOB(const uint8_t* y_src, uint8_t* y_dst) {
   // Loop over to copy src block if the block is marked as moving object block
   // or if the block may cause trailing artifacts.
   for (int mb_row = 0; mb_row < mb_rows_; ++mb_row) {
     const int mb_index_base = mb_row * mb_cols_;
     const int offset_base = (mb_row << 4) * stride_y_;
     const uint8_t* mb_src_base = y_src + offset_base;
     uint8_t* mb_dst_base = y_dst + offset_base;
     for (int mb_col = 0; mb_col < mb_cols_; ++mb_col) {
       const int mb_index = mb_index_base + mb_col;
       const uint32_t offset_col = mb_col << 4;
       const uint8_t* mb_src = mb_src_base + offset_col;
       uint8_t* mb_dst = mb_dst_base + offset_col;
       // Check if the block is a moving object block or may cause a trailing
       // artifacts.
       if (mb_filter_decision_[mb_index] != FILTER_BLOCK ||
           IsTrailingBlock(moving_edge_, mb_row, mb_col) ||
           (x_density_[mb_col] * y_density_[mb_row] &&
            moving_object_[mb_row * mb_cols_ + mb_col])) {
         // Copy y source.
         filter_->CopyMem16x16(mb_src, stride_y_, mb_dst, stride_y_);
       }
     }
   }
 }

 void VideoDenoiser::CopyLumaOnMargin(const uint8_t* y_src, uint8_t* y_dst) {
   if ((mb_rows_ << 4) != height_) {
     const uint8_t* margin_y_src = y_src + (mb_rows_ << 4) * stride_y_;
     uint8_t* margin_y_dst = y_dst + (mb_rows_ << 4) * stride_y_;
     memcpy(margin_y_dst, margin_y_src, (height_ - (mb_rows_ << 4)) * stride_y_);
   }
   if ((mb_cols_ << 4) != width_) {
     const uint8_t* margin_y_src = y_src + (mb_cols_ << 4);
     uint8_t* margin_y_dst = y_dst + (mb_cols_ << 4);
     for (int i = 0; i < height_; ++i) {
       for (int j = mb_cols_ << 4; j < width_; ++j) {
         margin_y_dst[i * stride_y_ + j] = margin_y_src[i * stride_y_ + j];
       }
     }
   }
 }

 void VideoDenoiser::DenoiseFrame(
     const rtc::scoped_refptr<VideoFrameBuffer>& frame,
     rtc::scoped_refptr<I420Buffer>* denoised_frame,
     rtc::scoped_refptr<I420Buffer>* denoised_frame_prev,
     bool noise_estimation_enabled) {
   // If previous width and height are different from current frame's, need to
   // reallocate the buffers and no denoising for the current frame.
   if (width_ != frame->width() || height_ != frame->height()) {
     DenoiserReset(frame, denoised_frame, denoised_frame_prev);
     return;
   }

   // Set buffer pointers.
   const uint8_t* y_src = frame->DataY();
   const uint8_t* u_src = frame->DataU();
   const uint8_t* v_src = frame->DataV();
   uint8_t* y_dst = (*denoised_frame)->MutableDataY();
   uint8_t* u_dst = (*denoised_frame)->MutableDataU();
   uint8_t* v_dst = (*denoised_frame)->MutableDataV();
   uint8_t* y_dst_prev = (*denoised_frame_prev)->MutableDataY();
   memset(x_density_.get(), 0, mb_cols_);
   memset(y_density_.get(), 0, mb_rows_);
   memset(moving_object_.get(), 1, mb_cols_ * mb_rows_);

   uint8_t noise_level = noise_estimation_enabled ? ne_->GetNoiseLevel() : 0;
   int thr_var_base = 16 * 16 * 2;
   // Loop over blocks to accumulate/extract noise level and update x/y_density
   // factors for moving object detection.
   for (int mb_row = 0; mb_row < mb_rows_; ++mb_row) {
     const int mb_index_base = mb_row * mb_cols_;
     const int offset_base = (mb_row << 4) * stride_y_;
     const uint8_t* mb_src_base = y_src + offset_base;
     uint8_t* mb_dst_base = y_dst + offset_base;
     uint8_t* mb_dst_prev_base = y_dst_prev + offset_base;
     for (int mb_col = 0; mb_col < mb_cols_; ++mb_col) {
       const int mb_index = mb_index_base + mb_col;
       const bool ne_enable = (mb_index % NOISE_SUBSAMPLE_INTERVAL == 0);
       const int pos_factor = PositionCheck(mb_row, mb_col, noise_level);
       const uint32_t thr_var_adp = thr_var_base * pos_factor;
       const uint32_t offset_col = mb_col << 4;
       const uint8_t* mb_src = mb_src_base + offset_col;
       uint8_t* mb_dst = mb_dst_base + offset_col;
       uint8_t* mb_dst_prev = mb_dst_prev_base + offset_col;

       // TODO(jackychen): Need SSE2/NEON opt.
       int luma = 0;
       if (ne_enable) {
         for (int i = 4; i < 12; ++i) {
           for (int j = 4; j < 12; ++j) {
             luma += mb_src[i * stride_y_ + j];
           }
         }
       }

       // Get the filtered block and filter_decision.
       mb_filter_decision_[mb_index] =
           filter_->MbDenoise(mb_dst_prev, stride_y_, mb_dst, stride_y_, mb_src,
                              stride_y_, 0, noise_level);

       // If filter decision is FILTER_BLOCK, no need to check moving edge.
       // It is unlikely for a moving edge block to be filtered in current
       // setting.
       if (mb_filter_decision_[mb_index] == FILTER_BLOCK) {
         uint32_t sse_t = 0;
         if (ne_enable) {
           // The variance used in noise estimation is based on the src block in
           // time t (mb_src) and filtered block in time t-1 (mb_dist_prev).
           uint32_t noise_var = filter_->Variance16x8(mb_dst_prev, stride_y_,
                                                      mb_src, stride_y_, &sse_t);
           ne_->GetNoise(mb_index, noise_var, luma);
         }
         moving_edge_[mb_index] = 0;  // Not a moving edge block.
       } else {
         uint32_t sse_t = 0;
         // The variance used in MOD is based on the filtered blocks in time
         // T (mb_dst) and T-1 (mb_dst_prev).
         uint32_t noise_var = filter_->Variance16x8(mb_dst_prev, stride_y_,
                                                    mb_dst, stride_y_, &sse_t);
         if (noise_var > thr_var_adp) {  // Moving edge checking.
           if (ne_enable) {
             ne_->ResetConsecLowVar(mb_index);
           }
           moving_edge_[mb_index] = 1;  // Mark as moving edge block.
           x_density_[mb_col] += (pos_factor < 3);
           y_density_[mb_row] += (pos_factor < 3);
         } else {
           moving_edge_[mb_index] = 0;
           if (ne_enable) {
             // The variance used in noise estimation is based on the src block
             // in time t (mb_src) and filtered block in time t-1 (mb_dist_prev).
             uint32_t noise_var = filter_->Variance16x8(
                 mb_dst_prev, stride_y_, mb_src, stride_y_, &sse_t);
             ne_->GetNoise(mb_index, noise_var, luma);
           }
         }
       }
     }  // End of for loop
   }    // End of for loop

   ReduceFalseDetection(moving_edge_, &moving_object_, noise_level);

   CopySrcOnMOB(y_src, y_dst);

   // When frame width/height not divisible by 16, copy the margin to
   // denoised_frame.
   if ((mb_rows_ << 4) != height_ || (mb_cols_ << 4) != width_)
     CopyLumaOnMargin(y_src, y_dst);

   // TODO(jackychen): Need SSE2/NEON opt.
   // Copy u/v planes.
   memcpy(u_dst, u_src, (height_ >> 1) * stride_u_);
   memcpy(v_dst, v_src, (height_ >> 1) * stride_v_);

 #if DISPLAY || DISPLAYNEON
   // Show rectangular region
   ShowRect(filter_, moving_edge_, moving_object_, x_density_, y_density_, u_src,
            v_src, u_dst, v_dst, mb_rows_, mb_cols_, stride_u_, stride_v_);
 #endif
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2015 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/common_video/libyuv/include/webrtc_libyuv.h"
	#include "webrtc/modules/video_processing/video_denoiser.h"

	namespace webrtc {

	#if DISPLAY \|\| DISPLAYNEON
	static void CopyMem8x8(const uint8_t* src,
	int src_stride,
	uint8_t* dst,
	int dst_stride) {
	for (int i = 0; i < 8; i++) {
	memcpy(dst, src, 8);
	src += src_stride;
	dst += dst_stride;
	}
	}

	static void ShowRect(const std::unique_ptr<DenoiserFilter>& filter,
	const std::unique_ptr<uint8_t[]>& d_status,
	const std::unique_ptr<uint8_t[]>& moving_edge_red,
	const std::unique_ptr<uint8_t[]>& x_density,
	const std::unique_ptr<uint8_t[]>& y_density,
	const uint8_t* u_src,
	const uint8_t* v_src,
	uint8_t* u_dst,
	uint8_t* v_dst,
	int mb_rows_,
	int mb_cols_,
	int stride_u_,
	int stride_v_) {
	for (int mb_row = 0; mb_row < mb_rows_; ++mb_row) {
	for (int mb_col = 0; mb_col < mb_cols_; ++mb_col) {
	int mb_index = mb_row * mb_cols_ + mb_col;
	const uint8_t* mb_src_u =
	u_src + (mb_row << 3) * stride_u_ + (mb_col << 3);
	const uint8_t* mb_src_v =
	v_src + (mb_row << 3) * stride_v_ + (mb_col << 3);
	uint8_t* mb_dst_u = u_dst + (mb_row << 3) * stride_u_ + (mb_col << 3);
	uint8_t* mb_dst_v = v_dst + (mb_row << 3) * stride_v_ + (mb_col << 3);
	uint8_t uv_tmp[8 * 8];
	memset(uv_tmp, 200, 8 * 8);
	if (d_status[mb_index] == 1) {
	// Paint to red.
	CopyMem8x8(mb_src_u, stride_u_, mb_dst_u, stride_u_);
	CopyMem8x8(uv_tmp, 8, mb_dst_v, stride_v_);
	} else if (moving_edge_red[mb_row * mb_cols_ + mb_col] &&
	x_density[mb_col] * y_density[mb_row]) {
	// Paint to blue.
	CopyMem8x8(uv_tmp, 8, mb_dst_u, stride_u_);
	CopyMem8x8(mb_src_v, stride_v_, mb_dst_v, stride_v_);
	} else {
	CopyMem8x8(mb_src_u, stride_u_, mb_dst_u, stride_u_);
	CopyMem8x8(mb_src_v, stride_v_, mb_dst_v, stride_v_);
	}
	}
	}
	}
	#endif

	VideoDenoiser::VideoDenoiser(bool runtime_cpu_detection)
	: width_(0),
	height_(0),
	filter_(DenoiserFilter::Create(runtime_cpu_detection, &cpu_type_)),
	ne_(new NoiseEstimation()) {}

	void VideoDenoiser::DenoiserReset(
	const rtc::scoped_refptr<VideoFrameBuffer>& frame,
	rtc::scoped_refptr<I420Buffer>* denoised_frame,
	rtc::scoped_refptr<I420Buffer>* denoised_frame_prev) {
	width_ = frame->width();
	height_ = frame->height();
	mb_cols_ = width_ >> 4;
	mb_rows_ = height_ >> 4;
	stride_y_ = frame->StrideY();
	stride_u_ = frame->StrideU();
	stride_v_ = frame->StrideV();

	// Allocate an empty buffer for denoised_frame_prev.
	*denoised_frame_prev = I420Buffer::Create(
	width_, height_, stride_y_, stride_u_, stride_v_);
	// Allocate and initialize denoised_frame with key frame.
	*denoised_frame = I420Buffer::CopyKeepStride(frame);

	// Init noise estimator and allocate buffers.
	ne_->Init(width_, height_, cpu_type_);
	moving_edge_.reset(new uint8_t[mb_cols_ * mb_rows_]);
	mb_filter_decision_.reset(new DenoiserDecision[mb_cols_ * mb_rows_]);
	x_density_.reset(new uint8_t[mb_cols_]);
	y_density_.reset(new uint8_t[mb_rows_]);
	moving_object_.reset(new uint8_t[mb_cols_ * mb_rows_]);
	}

	int VideoDenoiser::PositionCheck(int mb_row, int mb_col, int noise_level) {
	if (noise_level == 0)
	return 1;
	if ((mb_row <= (mb_rows_ >> 4)) \|\| (mb_col <= (mb_cols_ >> 4)) \|\|
	(mb_col >= (15 * mb_cols_ >> 4)))
	return 3;
	else if ((mb_row <= (mb_rows_ >> 3)) \|\| (mb_col <= (mb_cols_ >> 3)) \|\|
	(mb_col >= (7 * mb_cols_ >> 3)))
	return 2;
	else
	return 1;
	}

	void VideoDenoiser::ReduceFalseDetection(
	const std::unique_ptr<uint8_t[]>& d_status,
	std::unique_ptr<uint8_t[]>* moving_edge_red,
	int noise_level) {
	// From up left corner.
	int mb_col_stop = mb_cols_ - 1;
	for (int mb_row = 0; mb_row <= mb_rows_ - 1; ++mb_row) {
	for (int mb_col = 0; mb_col <= mb_col_stop; ++mb_col) {
	if (d_status[mb_row * mb_cols_ + mb_col]) {
	mb_col_stop = mb_col - 1;
	break;
	}
	(moving_edge_red)[mb_row mb_cols_ + mb_col] = 0;
	}
	}
	// From bottom left corner.
	mb_col_stop = mb_cols_ - 1;
	for (int mb_row = mb_rows_ - 1; mb_row >= 0; --mb_row) {
	for (int mb_col = 0; mb_col <= mb_col_stop; ++mb_col) {
	if (d_status[mb_row * mb_cols_ + mb_col]) {
	mb_col_stop = mb_col - 1;
	break;
	}
	(moving_edge_red)[mb_row mb_cols_ + mb_col] = 0;
	}
	}
	// From up right corner.
	mb_col_stop = 0;
	for (int mb_row = 0; mb_row <= mb_rows_ - 1; ++mb_row) {
	for (int mb_col = mb_cols_ - 1; mb_col >= mb_col_stop; --mb_col) {
	if (d_status[mb_row * mb_cols_ + mb_col]) {
	mb_col_stop = mb_col + 1;
	break;
	}
	(moving_edge_red)[mb_row mb_cols_ + mb_col] = 0;
	}
	}
	// From bottom right corner.
	mb_col_stop = 0;
	for (int mb_row = mb_rows_ - 1; mb_row >= 0; --mb_row) {
	for (int mb_col = mb_cols_ - 1; mb_col >= mb_col_stop; --mb_col) {
	if (d_status[mb_row * mb_cols_ + mb_col]) {
	mb_col_stop = mb_col + 1;
	break;
	}
	(moving_edge_red)[mb_row mb_cols_ + mb_col] = 0;
	}
	}
	}

	bool VideoDenoiser::IsTrailingBlock(const std::unique_ptr<uint8_t[]>& d_status,
	int mb_row,
	int mb_col) {
	bool ret = false;
	int mb_index = mb_row * mb_cols_ + mb_col;
	if (!mb_row \|\| !mb_col \|\| mb_row == mb_rows_ - 1 \|\| mb_col == mb_cols_ - 1)
	ret = false;
	else
	ret = d_status[mb_index + 1] \|\| d_status[mb_index - 1] \|\|
	d_status[mb_index + mb_cols_] \|\| d_status[mb_index - mb_cols_];
	return ret;
	}

	void VideoDenoiser::CopySrcOnMOB(const uint8_t* y_src, uint8_t* y_dst) {
	// Loop over to copy src block if the block is marked as moving object block
	// or if the block may cause trailing artifacts.
	for (int mb_row = 0; mb_row < mb_rows_; ++mb_row) {
	const int mb_index_base = mb_row * mb_cols_;
	const int offset_base = (mb_row << 4) * stride_y_;
	const uint8_t* mb_src_base = y_src + offset_base;
	uint8_t* mb_dst_base = y_dst + offset_base;
	for (int mb_col = 0; mb_col < mb_cols_; ++mb_col) {
	const int mb_index = mb_index_base + mb_col;
	const uint32_t offset_col = mb_col << 4;
	const uint8_t* mb_src = mb_src_base + offset_col;
	uint8_t* mb_dst = mb_dst_base + offset_col;
	// Check if the block is a moving object block or may cause a trailing
	// artifacts.
	if (mb_filter_decision_[mb_index] != FILTER_BLOCK \|\|
	IsTrailingBlock(moving_edge_, mb_row, mb_col) \|\|
	(x_density_[mb_col] * y_density_[mb_row] &&
	moving_object_[mb_row * mb_cols_ + mb_col])) {
	// Copy y source.
	filter_->CopyMem16x16(mb_src, stride_y_, mb_dst, stride_y_);
	}
	}
	}
	}

	void VideoDenoiser::CopyLumaOnMargin(const uint8_t* y_src, uint8_t* y_dst) {
	if ((mb_rows_ << 4) != height_) {
	const uint8_t* margin_y_src = y_src + (mb_rows_ << 4) * stride_y_;
	uint8_t* margin_y_dst = y_dst + (mb_rows_ << 4) * stride_y_;
	memcpy(margin_y_dst, margin_y_src, (height_ - (mb_rows_ << 4)) * stride_y_);
	}
	if ((mb_cols_ << 4) != width_) {
	const uint8_t* margin_y_src = y_src + (mb_cols_ << 4);
	uint8_t* margin_y_dst = y_dst + (mb_cols_ << 4);
	for (int i = 0; i < height_; ++i) {
	for (int j = mb_cols_ << 4; j < width_; ++j) {
	margin_y_dst[i * stride_y_ + j] = margin_y_src[i * stride_y_ + j];
	}
	}
	}
	}

	void VideoDenoiser::DenoiseFrame(
	const rtc::scoped_refptr<VideoFrameBuffer>& frame,
	rtc::scoped_refptr<I420Buffer>* denoised_frame,
	rtc::scoped_refptr<I420Buffer>* denoised_frame_prev,
	bool noise_estimation_enabled) {
	// If previous width and height are different from current frame's, need to
	// reallocate the buffers and no denoising for the current frame.
	if (width_ != frame->width() \|\| height_ != frame->height()) {
	DenoiserReset(frame, denoised_frame, denoised_frame_prev);
	return;
	}

	// Set buffer pointers.
	const uint8_t* y_src = frame->DataY();
	const uint8_t* u_src = frame->DataU();
	const uint8_t* v_src = frame->DataV();
	uint8_t* y_dst = (*denoised_frame)->MutableDataY();
	uint8_t* u_dst = (*denoised_frame)->MutableDataU();
	uint8_t* v_dst = (*denoised_frame)->MutableDataV();
	uint8_t* y_dst_prev = (*denoised_frame_prev)->MutableDataY();
	memset(x_density_.get(), 0, mb_cols_);
	memset(y_density_.get(), 0, mb_rows_);
	memset(moving_object_.get(), 1, mb_cols_ * mb_rows_);

	uint8_t noise_level = noise_estimation_enabled ? ne_->GetNoiseLevel() : 0;
	int thr_var_base = 16 * 16 * 2;
	// Loop over blocks to accumulate/extract noise level and update x/y_density
	// factors for moving object detection.
	for (int mb_row = 0; mb_row < mb_rows_; ++mb_row) {
	const int mb_index_base = mb_row * mb_cols_;
	const int offset_base = (mb_row << 4) * stride_y_;
	const uint8_t* mb_src_base = y_src + offset_base;
	uint8_t* mb_dst_base = y_dst + offset_base;
	uint8_t* mb_dst_prev_base = y_dst_prev + offset_base;
	for (int mb_col = 0; mb_col < mb_cols_; ++mb_col) {
	const int mb_index = mb_index_base + mb_col;
	const bool ne_enable = (mb_index % NOISE_SUBSAMPLE_INTERVAL == 0);
	const int pos_factor = PositionCheck(mb_row, mb_col, noise_level);
	const uint32_t thr_var_adp = thr_var_base * pos_factor;
	const uint32_t offset_col = mb_col << 4;
	const uint8_t* mb_src = mb_src_base + offset_col;
	uint8_t* mb_dst = mb_dst_base + offset_col;
	uint8_t* mb_dst_prev = mb_dst_prev_base + offset_col;

	// TODO(jackychen): Need SSE2/NEON opt.
	int luma = 0;
	if (ne_enable) {
	for (int i = 4; i < 12; ++i) {
	for (int j = 4; j < 12; ++j) {
	luma += mb_src[i * stride_y_ + j];
	}
	}
	}

	// Get the filtered block and filter_decision.
	mb_filter_decision_[mb_index] =
	filter_->MbDenoise(mb_dst_prev, stride_y_, mb_dst, stride_y_, mb_src,
	stride_y_, 0, noise_level);

	// If filter decision is FILTER_BLOCK, no need to check moving edge.
	// It is unlikely for a moving edge block to be filtered in current
	// setting.
	if (mb_filter_decision_[mb_index] == FILTER_BLOCK) {
	uint32_t sse_t = 0;
	if (ne_enable) {
	// The variance used in noise estimation is based on the src block in
	// time t (mb_src) and filtered block in time t-1 (mb_dist_prev).
	uint32_t noise_var = filter_->Variance16x8(mb_dst_prev, stride_y_,
	mb_src, stride_y_, &sse_t);
	ne_->GetNoise(mb_index, noise_var, luma);
	}
	moving_edge_[mb_index] = 0; // Not a moving edge block.
	} else {
	uint32_t sse_t = 0;
	// The variance used in MOD is based on the filtered blocks in time
	// T (mb_dst) and T-1 (mb_dst_prev).
	uint32_t noise_var = filter_->Variance16x8(mb_dst_prev, stride_y_,
	mb_dst, stride_y_, &sse_t);
	if (noise_var > thr_var_adp) { // Moving edge checking.
	if (ne_enable) {
	ne_->ResetConsecLowVar(mb_index);
	}
	moving_edge_[mb_index] = 1; // Mark as moving edge block.
	x_density_[mb_col] += (pos_factor < 3);
	y_density_[mb_row] += (pos_factor < 3);
	} else {
	moving_edge_[mb_index] = 0;
	if (ne_enable) {
	// The variance used in noise estimation is based on the src block
	// in time t (mb_src) and filtered block in time t-1 (mb_dist_prev).
	uint32_t noise_var = filter_->Variance16x8(
	mb_dst_prev, stride_y_, mb_src, stride_y_, &sse_t);
	ne_->GetNoise(mb_index, noise_var, luma);
	}
	}
	}
	} // End of for loop
	} // End of for loop

	ReduceFalseDetection(moving_edge_, &moving_object_, noise_level);

	CopySrcOnMOB(y_src, y_dst);

	// When frame width/height not divisible by 16, copy the margin to
	// denoised_frame.
	if ((mb_rows_ << 4) != height_ \|\| (mb_cols_ << 4) != width_)
	CopyLumaOnMargin(y_src, y_dst);

	// TODO(jackychen): Need SSE2/NEON opt.
	// Copy u/v planes.
	memcpy(u_dst, u_src, (height_ >> 1) * stride_u_);
	memcpy(v_dst, v_src, (height_ >> 1) * stride_v_);

	#if DISPLAY \|\| DISPLAYNEON
	// Show rectangular region
	ShowRect(filter_, moving_edge_, moving_object_, x_density_, y_density_, u_src,
	v_src, u_dst, v_dst, mb_rows_, mb_cols_, stride_u_, stride_v_);
	#endif
	}

	} // namespace webrtc