217 lines
9.5 KiB
C++
Executable File
217 lines
9.5 KiB
C++
Executable File
/*
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Copyright 2005-2007 Adobe Systems Incorporated
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Distributed under the MIT License (see accompanying file LICENSE_1_0_0.txt
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or a copy at http://opensource.adobe.com/licenses.html)
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*/
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/*************************************************************************************************/
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#ifndef GIL_CONVOLVE_HPP
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#define GIL_CONVOLVE_HPP
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/*!
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/// \file
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/// \brief 2D seperable convolutions and correlations
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///
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/// \author Hailin Jin and Lubomir Bourdev \n
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/// Adobe Systems Incorporated
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/// \date 2005-2007 \n Last updated on February 6, 2007
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*/
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#include <cstddef>
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#include <cassert>
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#include <algorithm>
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#include <vector>
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#include <functional>
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#include <boost/gil/gil_config.hpp>
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#include <boost/gil/image_view_factory.hpp>
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#include <boost/gil/algorithm.hpp>
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#include <boost/gil/metafunctions.hpp>
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#include "pixel_numeric_operations.hpp"
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#include "algorithm.hpp"
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namespace boost { namespace gil {
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/// \ingroup ImageAlgorithms
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/// Boundary options for 1D correlations/convolutions
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enum convolve_boundary_option {
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convolve_option_output_ignore, /// do nothing to the output
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convolve_option_output_zero, /// set the output to zero
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convolve_option_extend_padded, /// assume the source boundaries to be padded already
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convolve_option_extend_zero, /// assume the source boundaries to be zero
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convolve_option_extend_constant /// assume the source boundaries to be the boundary value
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};
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namespace detail {
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/// compute the correlation of 1D kernel with the rows of an image
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template <typename PixelAccum,typename SrcView,typename Kernel,typename DstView,typename Correlator>
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void correlate_rows_imp(const SrcView& src, const Kernel& ker, const DstView& dst,
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convolve_boundary_option option,
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Correlator correlator) {
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assert(src.dimensions()==dst.dimensions());
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assert(ker.size()!=0);
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typedef typename pixel_proxy<typename SrcView::value_type>::type PIXEL_SRC_REF;
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typedef typename pixel_proxy<typename DstView::value_type>::type PIXEL_DST_REF;
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typedef typename Kernel::value_type kernel_type;
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if(ker.size()==1) {//reduces to a multiplication
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view_multiplies_scalar<PixelAccum>(src,*ker.begin(),dst);
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return;
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}
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int width=src.width(),height=src.height();
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PixelAccum acc_zero; pixel_zeros_t<PixelAccum>()(acc_zero);
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if (width==0) return;
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if (option==convolve_option_output_ignore || option==convolve_option_output_zero) {
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typename DstView::value_type dst_zero; pixel_assigns_t<PixelAccum,PIXEL_DST_REF>()(acc_zero,dst_zero);
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if (width<(int)ker.size()) {
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if (option==convolve_option_output_zero)
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fill_pixels(dst,dst_zero);
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} else {
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std::vector<PixelAccum> buffer(width);
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for(int rr=0;rr<height;++rr) {
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assign_pixels(src.row_begin(rr),src.row_end(rr),&buffer.front());
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typename DstView::x_iterator it_dst=dst.row_begin(rr);
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if (option==convolve_option_output_zero)
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std::fill_n(it_dst,ker.left_size(),dst_zero);
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it_dst+=ker.left_size();
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correlator(&buffer.front(),&buffer.front()+width+1-ker.size(),
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ker.begin(),it_dst);
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it_dst+=width+1-ker.size();
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if (option==convolve_option_output_zero)
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std::fill_n(it_dst,ker.right_size(),dst_zero);
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}
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}
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} else {
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std::vector<PixelAccum> buffer(width+ker.size()-1);
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for(int rr=0;rr<height;++rr) {
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PixelAccum* it_buffer=&buffer.front();
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if (option==convolve_option_extend_padded) {
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assign_pixels(src.row_begin(rr)-ker.left_size(),
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src.row_end(rr)+ker.right_size(),
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it_buffer);
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} else if (option==convolve_option_extend_zero) {
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std::fill_n(it_buffer,ker.left_size(),acc_zero);
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it_buffer+=ker.left_size();
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assign_pixels(src.row_begin(rr),src.row_end(rr),it_buffer);
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it_buffer+=width;
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std::fill_n(it_buffer,ker.right_size(),acc_zero);
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} else if (option==convolve_option_extend_constant) {
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PixelAccum filler;
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pixel_assigns_t<PIXEL_SRC_REF,PixelAccum>()(*src.row_begin(rr),filler);
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std::fill_n(it_buffer,ker.left_size(),filler);
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it_buffer+=ker.left_size();
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assign_pixels(src.row_begin(rr),src.row_end(rr),it_buffer);
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it_buffer+=width;
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pixel_assigns_t<PIXEL_SRC_REF,PixelAccum>()(src.row_end(rr)[-1],filler);
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std::fill_n(it_buffer,ker.right_size(),filler);
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}
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correlator(&buffer.front(),&buffer.front()+width,
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ker.begin(),
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dst.row_begin(rr));
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}
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}
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}
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template <typename PixelAccum>
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class correlator_n {
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private:
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std::size_t _size;
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public:
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correlator_n(std::size_t size_in) : _size(size_in) {}
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template <typename SrcIterator,typename KernelIterator,typename DstIterator>
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void operator()(SrcIterator src_begin,SrcIterator src_end,
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KernelIterator ker_begin,
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DstIterator dst_begin) {
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correlate_pixels_n<PixelAccum>(src_begin,src_end,ker_begin,_size,dst_begin);
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}
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};
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template <std::size_t Size,typename PixelAccum>
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struct correlator_k {
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public:
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template <typename SrcIterator,typename KernelIterator,typename DstIterator>
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void operator()(SrcIterator src_begin,SrcIterator src_end,
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KernelIterator ker_begin,
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DstIterator dst_begin){
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correlate_pixels_k<Size,PixelAccum>(src_begin,src_end,ker_begin,dst_begin);
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}
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};
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} // namespace detail
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/// \ingroup ImageAlgorithms
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///correlate a 1D variable-size kernel along the rows of an image
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template <typename PixelAccum,typename SrcView,typename Kernel,typename DstView>
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GIL_FORCEINLINE
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void correlate_rows(const SrcView& src, const Kernel& ker, const DstView& dst,
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convolve_boundary_option option=convolve_option_extend_zero) {
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detail::correlate_rows_imp<PixelAccum>(src,ker,dst,option,detail::correlator_n<PixelAccum>(ker.size()));
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}
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/// \ingroup ImageAlgorithms
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///correlate a 1D variable-size kernel along the columns of an image
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template <typename PixelAccum,typename SrcView,typename Kernel,typename DstView>
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GIL_FORCEINLINE
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void correlate_cols(const SrcView& src, const Kernel& ker, const DstView& dst,
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convolve_boundary_option option=convolve_option_extend_zero) {
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correlate_rows<PixelAccum>(transposed_view(src),ker,transposed_view(dst),option);
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}
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/// \ingroup ImageAlgorithms
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///convolve a 1D variable-size kernel along the rows of an image
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template <typename PixelAccum,typename SrcView,typename Kernel,typename DstView>
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GIL_FORCEINLINE
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void convolve_rows(const SrcView& src, const Kernel& ker, const DstView& dst,
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convolve_boundary_option option=convolve_option_extend_zero) {
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correlate_rows<PixelAccum>(src,reverse_kernel(ker),dst,option);
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}
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/// \ingroup ImageAlgorithms
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///convolve a 1D variable-size kernel along the columns of an image
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template <typename PixelAccum,typename SrcView,typename Kernel,typename DstView>
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GIL_FORCEINLINE
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void convolve_cols(const SrcView& src, const Kernel& ker, const DstView& dst,
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convolve_boundary_option option=convolve_option_extend_zero) {
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convolve_rows<PixelAccum>(transposed_view(src),ker,transposed_view(dst),option);
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}
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/// \ingroup ImageAlgorithms
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///correlate a 1D fixed-size kernel along the rows of an image
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template <typename PixelAccum,typename SrcView,typename Kernel,typename DstView>
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GIL_FORCEINLINE
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void correlate_rows_fixed(const SrcView& src, const Kernel& ker, const DstView& dst,
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convolve_boundary_option option=convolve_option_extend_zero) {
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detail::correlate_rows_imp<PixelAccum>(src,ker,dst,option,detail::correlator_k<Kernel::static_size,PixelAccum>());
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}
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/// \ingroup ImageAlgorithms
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///correlate a 1D fixed-size kernel along the columns of an image
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template <typename PixelAccum,typename SrcView,typename Kernel,typename DstView>
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GIL_FORCEINLINE
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void correlate_cols_fixed(const SrcView& src, const Kernel& ker, const DstView& dst,
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convolve_boundary_option option=convolve_option_extend_zero) {
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correlate_rows_fixed<PixelAccum>(transposed_view(src),ker,transposed_view(dst),option);
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}
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/// \ingroup ImageAlgorithms
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///convolve a 1D fixed-size kernel along the rows of an image
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template <typename PixelAccum,typename SrcView,typename Kernel,typename DstView>
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GIL_FORCEINLINE
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void convolve_rows_fixed(const SrcView& src, const Kernel& ker, const DstView& dst,
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convolve_boundary_option option=convolve_option_extend_zero) {
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correlate_rows_fixed<PixelAccum>(src,reverse_kernel(ker),dst,option);
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}
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/// \ingroup ImageAlgorithms
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///convolve a 1D fixed-size kernel along the columns of an image
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template <typename PixelAccum,typename SrcView,typename Kernel,typename DstView>
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GIL_FORCEINLINE
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void convolve_cols_fixed(const SrcView& src, const Kernel& ker, const DstView& dst,
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convolve_boundary_option option=convolve_option_extend_zero) {
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convolve_rows_fixed<PixelAccum>(transposed_view(src),ker,transposed_view(dst),option);
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}
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} } // namespace boost::gil
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#endif
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