This source file includes following definitions.
- extended_srcs_
- calcDistSumsForFirstElementInRow
- calcDistSumsForElementInFirstRow
#ifndef __OPENCV_FAST_NLMEANS_MULTI_DENOISING_INVOKER_HPP__
#define __OPENCV_FAST_NLMEANS_MULTI_DENOISING_INVOKER_HPP__
#include "precomp.hpp"
#include <limits>
#include "fast_nlmeans_denoising_invoker_commons.hpp"
#include "arrays.hpp"
using namespace cv;
template <typename T, typename IT, typename UIT, typename D, typename WT>
struct FastNlMeansMultiDenoisingInvoker :
ParallelLoopBody
{
public:
FastNlMeansMultiDenoisingInvoker(const std::vector<Mat>& srcImgs, int imgToDenoiseIndex,
int temporalWindowSize, Mat& dst, int template_window_size,
int search_window_size, const float *h);
void operator() (const Range& range) const;
private:
void operator= (const FastNlMeansMultiDenoisingInvoker&);
int rows_;
int cols_;
Mat& dst_;
std::vector<Mat> extended_srcs_;
Mat main_extended_src_;
int border_size_;
int template_window_size_;
int search_window_size_;
int temporal_window_size_;
int template_window_half_size_;
int search_window_half_size_;
int temporal_window_half_size_;
typename pixelInfo<WT>::sampleType fixed_point_mult_;
int almost_template_window_size_sq_bin_shift;
std::vector<WT> almost_dist2weight;
void calcDistSumsForFirstElementInRow(int i, Array3d<int>& dist_sums,
Array4d<int>& col_dist_sums,
Array4d<int>& up_col_dist_sums) const;
void calcDistSumsForElementInFirstRow(int i, int j, int first_col_num,
Array3d<int>& dist_sums, Array4d<int>& col_dist_sums,
Array4d<int>& up_col_dist_sums) const;
};
template <typename T, typename IT, typename UIT, typename D, typename WT>
FastNlMeansMultiDenoisingInvoker<T, IT, UIT, D, WT>::FastNlMeansMultiDenoisingInvoker(
const std::vector<Mat>& srcImgs,
int imgToDenoiseIndex,
int temporalWindowSize,
cv::Mat& dst,
int template_window_size,
int search_window_size,
const float *h) :
dst_(dst), extended_srcs_(srcImgs.size())
{
CV_Assert(srcImgs.size() > 0);
CV_Assert(srcImgs[0].channels() == pixelInfo<T>::channels);
rows_ = srcImgs[0].rows;
cols_ = srcImgs[0].cols;
template_window_half_size_ = template_window_size / 2;
search_window_half_size_ = search_window_size / 2;
temporal_window_half_size_ = temporalWindowSize / 2;
template_window_size_ = template_window_half_size_ * 2 + 1;
search_window_size_ = search_window_half_size_ * 2 + 1;
temporal_window_size_ = temporal_window_half_size_ * 2 + 1;
border_size_ = search_window_half_size_ + template_window_half_size_;
for (int i = 0; i < temporal_window_size_; i++)
copyMakeBorder(srcImgs[imgToDenoiseIndex - temporal_window_half_size_ + i], extended_srcs_[i],
border_size_, border_size_, border_size_, border_size_, cv::BORDER_DEFAULT);
main_extended_src_ = extended_srcs_[temporal_window_half_size_];
const IT max_estimate_sum_value =
(IT)temporal_window_size_ * (IT)search_window_size_ * (IT)search_window_size_ * (IT)pixelInfo<T>::sampleMax();
fixed_point_mult_ = (int)std::min<IT>(std::numeric_limits<IT>::max() / max_estimate_sum_value,
pixelInfo<WT>::sampleMax());
int template_window_size_sq = template_window_size_ * template_window_size_;
almost_template_window_size_sq_bin_shift = 0;
while (1 << almost_template_window_size_sq_bin_shift < template_window_size_sq)
almost_template_window_size_sq_bin_shift++;
int almost_template_window_size_sq = 1 << almost_template_window_size_sq_bin_shift;
double almost_dist2actual_dist_multiplier = (double) almost_template_window_size_sq / template_window_size_sq;
int max_dist = D::template maxDist<T>();
int almost_max_dist = (int)(max_dist / almost_dist2actual_dist_multiplier + 1);
almost_dist2weight.resize(almost_max_dist);
for (int almost_dist = 0; almost_dist < almost_max_dist; almost_dist++)
{
double dist = almost_dist * almost_dist2actual_dist_multiplier;
almost_dist2weight[almost_dist] =
D::template calcWeight<T, WT>(dist, h, fixed_point_mult_);
}
if (dst_.empty())
dst_ = Mat::zeros(srcImgs[0].size(), srcImgs[0].type());
}
template <typename T, typename IT, typename UIT, typename D, typename WT>
void FastNlMeansMultiDenoisingInvoker<T, IT, UIT, D, WT>::operator() (const Range& range) const
{
int row_from = range.start;
int row_to = range.end - 1;
Array3d<int> dist_sums(temporal_window_size_, search_window_size_, search_window_size_);
Array4d<int> col_dist_sums(template_window_size_, temporal_window_size_, search_window_size_, search_window_size_);
int first_col_num = -1;
Array4d<int> up_col_dist_sums(cols_, temporal_window_size_, search_window_size_, search_window_size_);
for (int i = row_from; i <= row_to; i++)
{
for (int j = 0; j < cols_; j++)
{
int search_window_y = i - search_window_half_size_;
int search_window_x = j - search_window_half_size_;
if (j == 0)
{
calcDistSumsForFirstElementInRow(i, dist_sums, col_dist_sums, up_col_dist_sums);
first_col_num = 0;
}
else
{
if (i == row_from)
{
calcDistSumsForElementInFirstRow(i, j, first_col_num,
dist_sums, col_dist_sums, up_col_dist_sums);
}
else
{
int ay = border_size_ + i;
int ax = border_size_ + j + template_window_half_size_;
int start_by =
border_size_ + i - search_window_half_size_;
int start_bx =
border_size_ + j - search_window_half_size_ + template_window_half_size_;
T a_up = main_extended_src_.at<T>(ay - template_window_half_size_ - 1, ax);
T a_down = main_extended_src_.at<T>(ay + template_window_half_size_, ax);
int search_window_size = search_window_size_;
for (int d = 0; d < temporal_window_size_; d++)
{
Mat cur_extended_src = extended_srcs_[d];
Array2d<int> cur_dist_sums = dist_sums[d];
Array2d<int> cur_col_dist_sums = col_dist_sums[first_col_num][d];
Array2d<int> cur_up_col_dist_sums = up_col_dist_sums[j][d];
for (int y = 0; y < search_window_size; y++)
{
int* dist_sums_row = cur_dist_sums.row_ptr(y);
int* col_dist_sums_row = cur_col_dist_sums.row_ptr(y);
int* up_col_dist_sums_row = cur_up_col_dist_sums.row_ptr(y);
const T* b_up_ptr = cur_extended_src.ptr<T>(start_by - template_window_half_size_ - 1 + y);
const T* b_down_ptr = cur_extended_src.ptr<T>(start_by + template_window_half_size_ + y);
for (int x = 0; x < search_window_size; x++)
{
dist_sums_row[x] -= col_dist_sums_row[x];
col_dist_sums_row[x] = up_col_dist_sums_row[x] +
D::template calcUpDownDist<T>(a_up, a_down, b_up_ptr[start_bx + x], b_down_ptr[start_bx + x]);
dist_sums_row[x] += col_dist_sums_row[x];
up_col_dist_sums_row[x] = col_dist_sums_row[x];
}
}
}
}
first_col_num = (first_col_num + 1) % template_window_size_;
}
IT estimation[pixelInfo<T>::channels], weights_sum[pixelInfo<WT>::channels];
for (size_t channel_num = 0; channel_num < pixelInfo<T>::channels; channel_num++)
estimation[channel_num] = 0;
for (size_t channel_num = 0; channel_num < pixelInfo<WT>::channels; channel_num++)
weights_sum[channel_num] = 0;
for (int d = 0; d < temporal_window_size_; d++)
{
const Mat& esrc_d = extended_srcs_[d];
for (int y = 0; y < search_window_size_; y++)
{
const T* cur_row_ptr = esrc_d.ptr<T>(border_size_ + search_window_y + y);
int* dist_sums_row = dist_sums.row_ptr(d, y);
for (int x = 0; x < search_window_size_; x++)
{
int almostAvgDist = dist_sums_row[x] >> almost_template_window_size_sq_bin_shift;
WT weight = almost_dist2weight[almostAvgDist];
T p = cur_row_ptr[border_size_ + search_window_x + x];
incWithWeight<T, IT, WT>(estimation, weights_sum, weight, p);
}
}
}
divByWeightsSum<IT, UIT, pixelInfo<T>::channels, pixelInfo<WT>::channels>(estimation,
weights_sum);
dst_.at<T>(i,j) = saturateCastFromArray<T, IT>(estimation);
}
}
}
template <typename T, typename IT, typename UIT, typename D, typename WT>
inline void FastNlMeansMultiDenoisingInvoker<T, IT, UIT, D, WT>::calcDistSumsForFirstElementInRow(
int i, Array3d<int>& dist_sums, Array4d<int>& col_dist_sums, Array4d<int>& up_col_dist_sums) const
{
int j = 0;
for (int d = 0; d < temporal_window_size_; d++)
{
Mat cur_extended_src = extended_srcs_[d];
for (int y = 0; y < search_window_size_; y++)
for (int x = 0; x < search_window_size_; x++)
{
dist_sums[d][y][x] = 0;
for (int tx = 0; tx < template_window_size_; tx++)
col_dist_sums[tx][d][y][x] = 0;
int start_y = i + y - search_window_half_size_;
int start_x = j + x - search_window_half_size_;
int* dist_sums_ptr = &dist_sums[d][y][x];
int* col_dist_sums_ptr = &col_dist_sums[0][d][y][x];
int col_dist_sums_step = col_dist_sums.step_size(0);
for (int tx = -template_window_half_size_; tx <= template_window_half_size_; tx++)
{
for (int ty = -template_window_half_size_; ty <= template_window_half_size_; ty++)
{
int dist = D::template calcDist<T>(
main_extended_src_.at<T>(border_size_ + i + ty, border_size_ + j + tx),
cur_extended_src.at<T>(border_size_ + start_y + ty, border_size_ + start_x + tx));
*dist_sums_ptr += dist;
*col_dist_sums_ptr += dist;
}
col_dist_sums_ptr += col_dist_sums_step;
}
up_col_dist_sums[j][d][y][x] = col_dist_sums[template_window_size_ - 1][d][y][x];
}
}
}
template <typename T, typename IT, typename UIT, typename D, typename WT>
inline void FastNlMeansMultiDenoisingInvoker<T, IT, UIT, D, WT>::calcDistSumsForElementInFirstRow(
int i, int j, int first_col_num, Array3d<int>& dist_sums,
Array4d<int>& col_dist_sums, Array4d<int>& up_col_dist_sums) const
{
int ay = border_size_ + i;
int ax = border_size_ + j + template_window_half_size_;
int start_by = border_size_ + i - search_window_half_size_;
int start_bx = border_size_ + j - search_window_half_size_ + template_window_half_size_;
int new_last_col_num = first_col_num;
for (int d = 0; d < temporal_window_size_; d++)
{
Mat cur_extended_src = extended_srcs_[d];
for (int y = 0; y < search_window_size_; y++)
for (int x = 0; x < search_window_size_; x++)
{
dist_sums[d][y][x] -= col_dist_sums[first_col_num][d][y][x];
col_dist_sums[new_last_col_num][d][y][x] = 0;
int by = start_by + y;
int bx = start_bx + x;
int* col_dist_sums_ptr = &col_dist_sums[new_last_col_num][d][y][x];
for (int ty = -template_window_half_size_; ty <= template_window_half_size_; ty++)
{
*col_dist_sums_ptr += D::template calcDist<T>(
main_extended_src_.at<T>(ay + ty, ax),
cur_extended_src.at<T>(by + ty, bx));
}
dist_sums[d][y][x] += col_dist_sums[new_last_col_num][d][y][x];
up_col_dist_sums[j][d][y][x] = col_dist_sums[new_last_col_num][d][y][x];
}
}
}
#endif